pgBadger-
Global information
- Generated on Thu Mar 26 04:15:04 2026
- Log file: /project/archive/log/postgres/dbprd51/postgresql.log-20260325
- Parsed 17,221 log entries in 3s
- Log start from 2026-03-25 00:00:01 to 2026-03-25 23:58:42
-
Overview
Global Stats
- 19 Number of unique normalized queries
- 72 Number of queries
- 1h28m33s Total query duration
- 2026-03-25 00:09:12 First query
- 2026-03-25 22:16:39 Last query
- 1 queries/s at 2026-03-25 22:12:39 Query peak
- 1h28m33s Total query duration
- 0ms Prepare/parse total duration
- 0ms Bind total duration
- 1h28m33s Execute total duration
- 27 Number of events
- 6 Number of unique normalized events
- 10 Max number of times the same event was reported
- 0 Number of cancellation
- 4 Total number of automatic vacuums
- 20 Total number of automatic analyzes
- 0 Number temporary file
- 0 Max size of temporary file
- 0.00 B Average size of temporary file
- 2,082 Total number of sessions
- 63 sessions at 2026-03-25 22:08:59 Session peak
- 40d17h17m57s Total duration of sessions
- 28m9s Average duration of sessions
- 0 Average queries per session
- 2s552ms Average queries duration per session
- 28m7s Average idle time per session
- 2,082 Total number of connections
- 33 connections/s at 2026-03-25 22:07:57 Connection peak
- 2 Total number of databases
SQL Traffic
Key values
- 1 queries/s Query Peak
- 2026-03-25 22:12:39 Date
SELECT Traffic
Key values
- 1 queries/s Query Peak
- 2026-03-25 22:12:39 Date
INSERT/UPDATE/DELETE Traffic
Key values
- 1 queries/s Query Peak
- 2026-03-25 14:06:53 Date
Queries duration
Key values
- 1h28m33s Total query duration
Prepared queries ratio
Key values
- 0.00 Ratio of bind vs prepare
- 0.00 % Ratio between prepared and "usual" statements
General Activity
↑ Back to the top of the General Activity tableDay Hour Count Min duration Max duration Avg duration Latency Percentile(90) Latency Percentile(95) Latency Percentile(99) Mar 25 00 2 0ms 9m11s 4m39s 0ms 0ms 9m18s 01 1 0ms 8s527ms 8s527ms 0ms 0ms 8s527ms 02 0 0ms 0ms 0ms 0ms 0ms 0ms 03 1 0ms 5s187ms 5s187ms 0ms 0ms 5s187ms 04 1 0ms 5s214ms 5s214ms 0ms 0ms 5s214ms 05 6 0ms 7s387ms 6s598ms 0ms 5s151ms 14s705ms 06 9 0ms 1m51s 24s390ms 20s905ms 47s302ms 1m51s 07 0 0ms 0ms 0ms 0ms 0ms 0ms 08 0 0ms 0ms 0ms 0ms 0ms 0ms 09 0 0ms 0ms 0ms 0ms 0ms 0ms 10 18 0ms 1m51s 15s839ms 20s943ms 47s194ms 1m51s 11 0 0ms 0ms 0ms 0ms 0ms 0ms 12 0 0ms 0ms 0ms 0ms 0ms 0ms 13 0 0ms 0ms 0ms 0ms 0ms 0ms 14 9 0ms 1m52s 24s348ms 0ms 39s566ms 1m52s 15 0 0ms 0ms 0ms 0ms 0ms 0ms 16 0 0ms 0ms 0ms 0ms 0ms 0ms 17 0 0ms 0ms 0ms 0ms 0ms 0ms 18 9 0ms 1m51s 24s309ms 20s943ms 46s825ms 1m51s 19 0 0ms 0ms 0ms 0ms 0ms 0ms 20 0 0ms 0ms 0ms 0ms 0ms 0ms 21 0 0ms 0ms 0ms 0ms 0ms 0ms 22 16 0ms 4m20s 3m54s 7m18s 10m53s 24m41s 23 0 0ms 0ms 0ms 0ms 0ms 0ms Day Hour SELECT COPY TO Average Duration Latency Percentile(90) Latency Percentile(95) Latency Percentile(99) Mar 25 00 1 0 9m11s 0ms 0ms 9m11s 01 1 0 8s527ms 0ms 0ms 8s527ms 02 0 0 0ms 0ms 0ms 0ms 03 1 0 5s187ms 0ms 0ms 5s187ms 04 1 0 5s214ms 0ms 0ms 5s214ms 05 6 0 6s598ms 0ms 0ms 14s705ms 06 0 9 24s390ms 0ms 20s905ms 1m51s 07 0 0 0ms 0ms 0ms 0ms 08 0 0 0ms 0ms 0ms 0ms 09 0 0 0ms 0ms 0ms 0ms 10 9 9 15s839ms 6s417ms 20s943ms 1m51s 11 0 0 0ms 0ms 0ms 0ms 12 0 0 0ms 0ms 0ms 0ms 13 0 0 0ms 0ms 0ms 0ms 14 0 9 24s348ms 0ms 0ms 1m52s 15 0 0 0ms 0ms 0ms 0ms 16 0 0 0ms 0ms 0ms 0ms 17 0 0 0ms 0ms 0ms 0ms 18 0 9 24s309ms 0ms 20s943ms 1m51s 19 0 0 0ms 0ms 0ms 0ms 20 0 0 0ms 0ms 0ms 0ms 21 0 0 0ms 0ms 0ms 0ms 22 16 0 3m54s 0ms 7m18s 24m41s 23 0 0 0ms 0ms 0ms 0ms Day Hour INSERT UPDATE DELETE COPY FROM Average Duration Latency Percentile(90) Latency Percentile(95) Latency Percentile(99) Mar 25 00 0 0 0 0 0ms 0ms 0ms 0ms 01 0 0 0 0 0ms 0ms 0ms 0ms 02 0 0 0 0 0ms 0ms 0ms 0ms 03 0 0 0 0 0ms 0ms 0ms 0ms 04 0 0 0 0 0ms 0ms 0ms 0ms 05 0 0 0 0 0ms 0ms 0ms 0ms 06 0 0 0 0 0ms 0ms 0ms 0ms 07 0 0 0 0 0ms 0ms 0ms 0ms 08 0 0 0 0 0ms 0ms 0ms 0ms 09 0 0 0 0 0ms 0ms 0ms 0ms 10 0 0 0 0 0ms 0ms 0ms 0ms 11 0 0 0 0 0ms 0ms 0ms 0ms 12 0 0 0 0 0ms 0ms 0ms 0ms 13 0 0 0 0 0ms 0ms 0ms 0ms 14 0 0 0 0 0ms 0ms 0ms 0ms 15 0 0 0 0 0ms 0ms 0ms 0ms 16 0 0 0 0 0ms 0ms 0ms 0ms 17 0 0 0 0 0ms 0ms 0ms 0ms 18 0 0 0 0 0ms 0ms 0ms 0ms 19 0 0 0 0 0ms 0ms 0ms 0ms 20 0 0 0 0 0ms 0ms 0ms 0ms 21 0 0 0 0 0ms 0ms 0ms 0ms 22 0 0 0 0 0ms 0ms 0ms 0ms 23 0 0 0 0 0ms 0ms 0ms 0ms Day Hour Prepare Bind Bind/Prepare Percentage of prepare Mar 25 00 0 0 0.00 0.00% 01 0 1 1.00 0.00% 02 0 0 0.00 0.00% 03 0 1 1.00 0.00% 04 0 1 1.00 0.00% 05 0 6 6.00 0.00% 06 0 0 0.00 0.00% 07 0 0 0.00 0.00% 08 0 0 0.00 0.00% 09 0 0 0.00 0.00% 10 0 9 9.00 0.00% 11 0 0 0.00 0.00% 12 0 0 0.00 0.00% 13 0 0 0.00 0.00% 14 0 0 0.00 0.00% 15 0 0 0.00 0.00% 16 0 0 0.00 0.00% 17 0 0 0.00 0.00% 18 0 0 0.00 0.00% 19 0 0 0.00 0.00% 20 0 0 0.00 0.00% 21 0 0 0.00 0.00% 22 0 16 16.00 0.00% 23 0 0 0.00 0.00% Day Hour Count Average / Second Mar 25 00 81 0.02/s 01 83 0.02/s 02 85 0.02/s 03 83 0.02/s 04 74 0.02/s 05 95 0.03/s 06 86 0.02/s 07 76 0.02/s 08 81 0.02/s 09 82 0.02/s 10 111 0.03/s 11 77 0.02/s 12 81 0.02/s 13 82 0.02/s 14 90 0.03/s 15 79 0.02/s 16 75 0.02/s 17 74 0.02/s 18 74 0.02/s 19 80 0.02/s 20 77 0.02/s 21 90 0.03/s 22 171 0.05/s 23 95 0.03/s Day Hour Count Average Duration Average idle time Mar 25 00 81 30m15s 30m8s 01 83 29m1s 29m1s 02 85 28m19s 28m19s 03 83 28m44s 28m44s 04 74 30m25s 30m25s 05 95 26m14s 26m14s 06 86 27m47s 27m44s 07 76 31m52s 31m52s 08 81 30m39s 30m39s 09 82 29m49s 29m49s 10 111 20m28s 20m25s 11 77 32m4s 32m4s 12 79 31m6s 31m6s 13 82 29m24s 29m24s 14 90 27m5s 27m2s 15 79 30m57s 30m57s 16 75 31m12s 31m12s 17 74 30m20s 30m20s 18 74 29m24s 29m21s 19 80 31m2s 31m2s 20 79 41m51s 41m51s 21 90 27m31s 27m31s 22 171 14m11s 13m49s 23 95 26m46s 26m46s -
Connections
Established Connections
Key values
- 33 connections Connection Peak
- 2026-03-25 22:07:57 Date
Connections per database
Key values
- ctdprd51 Main Database
- 2,082 connections Total
Connections per user
Key values
- pubeu Main User
- 2,082 connections Total
-
Sessions
Simultaneous sessions
Key values
- 63 sessions Session Peak
- 2026-03-25 22:08:59 Date
Histogram of session times
Key values
- 1,786 1800000-3600000ms duration
Sessions per database
Key values
- ctdprd51 Main Database
- 2,082 sessions Total
Sessions per user
Key values
- pubeu Main User
- 2,082 sessions Total
Sessions per host
Key values
- 10.12.5.53 Main Host
- 2,082 sessions Total
-
Checkpoints / Restartpoints
Checkpoints Buffers
Key values
- 74,864 buffers Checkpoint Peak
- 2026-03-25 22:44:31 Date
- 1619.103 seconds Highest write time
- 0.002 seconds Sync time
Checkpoints Wal files
Key values
- 35 files Wal files usage Peak
- 2026-03-25 22:44:31 Date
Checkpoints distance
Key values
- 1,121.24 Mo Distance Peak
- 2026-03-25 22:44:31 Date
Checkpoints Activity
↑ Back to the top of the Checkpoint Activity tableDay Hour Written buffers Write time Sync time Total time Mar 25 00 5,921 592.908s 0.002s 592.961s 01 16 1.787s 0.002s 1.795s 02 116 11.817s 0.002s 11.826s 03 143 14.525s 0.002s 14.534s 04 101 10.296s 0.002s 10.304s 05 179 18.025s 0.002s 18.033s 06 459 46.168s 0.002s 46.177s 07 10,435 1,044.705s 0.002s 1,044.764s 08 3,057 306.228s 0.002s 306.275s 09 268 27.047s 0.002s 27.056s 10 444 44.579s 0.003s 44.588s 11 216 21.84s 0.002s 21.851s 12 183 18.517s 0.002s 18.527s 13 363 36.539s 0.002s 36.549s 14 56 5.77s 0.002s 5.778s 15 4,511 451.944s 0.003s 451.993s 16 12 1.489s 0.002s 1.498s 17 93 9.505s 0.002s 9.515s 18 38 3.97s 0.002s 3.979s 19 10 1.081s 0.001s 1.085s 20 21 2.274s 0.002s 2.283s 21 353 35.554s 0.002s 35.562s 22 74,884 1,621.191s 0.002s 1,621.3s 23 5,486 549.549s 0.002s 549.564s Day Hour Added Removed Recycled Synced files Longest sync Average sync Mar 25 00 0 0 4 76 0.001s 0.002s 01 0 0 0 15 0.001s 0.002s 02 0 0 0 28 0.001s 0.002s 03 0 0 0 31 0.001s 0.002s 04 0 0 0 24 0.001s 0.002s 05 0 0 0 34 0.001s 0.002s 06 0 0 0 93 0.001s 0.002s 07 0 0 6 85 0.001s 0.002s 08 0 0 2 144 0.001s 0.002s 09 0 0 0 75 0.001s 0.002s 10 0 0 0 131 0.001s 0.002s 11 0 0 0 106 0.001s 0.002s 12 0 0 0 71 0.001s 0.002s 13 0 0 0 97 0.001s 0.002s 14 0 0 0 23 0.001s 0.002s 15 0 0 3 152 0.001s 0.002s 16 0 0 0 7 0.001s 0.002s 17 0 0 0 24 0.001s 0.002s 18 0 0 0 20 0.001s 0.002s 19 0 0 0 7 0.001s 0.001s 20 0 0 0 13 0.001s 0.002s 21 0 0 0 32 0.001s 0.002s 22 0 0 35 36 0.001s 0.002s 23 0 0 3 48 0.001s 0.002s Day Hour Count Avg time (sec) Mar 25 00 0 0s 01 0 0s 02 0 0s 03 0 0s 04 0 0s 05 0 0s 06 0 0s 07 0 0s 08 0 0s 09 0 0s 10 0 0s 11 0 0s 12 0 0s 13 0 0s 14 0 0s 15 0 0s 16 0 0s 17 0 0s 18 0 0s 19 0 0s 20 0 0s 21 0 0s 22 0 0s 23 0 0s Day Hour Mean distance Mean estimate Mar 25 00 31,036.00 kB 58,921.50 kB 01 28.50 kB 47,733.00 kB 02 298.00 kB 38,707.50 kB 03 380.50 kB 31,421.00 kB 04 238.00 kB 25,510.50 kB 05 498.00 kB 20,735.50 kB 06 1,517.50 kB 17,016.50 kB 07 47,871.50 kB 47,871.50 kB 08 12,092.00 kB 44,383.50 kB 09 511.00 kB 36,029.00 kB 10 1,079.50 kB 29,342.50 kB 11 585.50 kB 23,921.50 kB 12 476.00 kB 19,488.50 kB 13 1,686.50 kB 15,964.50 kB 14 108.00 kB 13,095.50 kB 15 20,592.00 kB 37,917.00 kB 16 32.00 kB 30,779.00 kB 17 252.50 kB 24,961.00 kB 18 70.00 kB 20,246.50 kB 19 27.00 kB 17,269.00 kB 20 42.50 kB 14,771.00 kB 21 795.00 kB 12,050.00 kB 22 287,122.00 kB 545,379.00 kB 23 26,767.50 kB 446,789.50 kB -
Temporary Files
Size of temporary files
Key values
- 0 Temp Files size Peak
- Date
Size of temporary files (5 minutes period)
NO DATASET
Number of temporary files
Key values
- 0 per second Temp Files Peak
- Date
Number of temporary files (5 minutes period)
NO DATASET
Temporary Files Activity
↑ Back to the top of the Temporary Files Activity tableDay Hour Count Total size Average size Mar 25 00 0 0 0 01 0 0 0 02 0 0 0 03 0 0 0 04 0 0 0 05 0 0 0 06 0 0 0 07 0 0 0 08 0 0 0 09 0 0 0 10 0 0 0 11 0 0 0 12 0 0 0 13 0 0 0 14 0 0 0 15 0 0 0 16 0 0 0 17 0 0 0 18 0 0 0 19 0 0 0 20 0 0 0 21 0 0 0 22 0 0 0 23 0 0 0 -
Vacuums
Vacuums / Analyzes Distribution
Key values
- 0.67 sec Highest CPU-cost vacuum
Table pub2.term_set_enrichment
Database ctdprd51 - 2026-03-25 22:08:05 Date
- 0 sec Highest CPU-cost analyze
Table
Database ctdprd51 - Date
Average Autovacuum Duration
Key values
- 0.67 sec Highest CPU-cost vacuum
Table pub2.term_set_enrichment
Database ctdprd51 - 2026-03-25 22:08:05 Date
Analyzes per table
Key values
- pubc.log_query (17) Main table analyzed (database ctdprd51)
- 20 analyzes Total
Vacuums per table
Key values
- pubc.log_query (2) Main table vacuumed on database ctdprd51
- 4 vacuums Total
Index Buffer usage Skipped WAL usage Table Vacuums scans hits misses dirtied pins frozen records full page bytes ctdprd51.pubc.log_query 2 2 694 0 145 0 0 279 84 610,679 ctdprd51.pub2.term_set_enrichment 1 0 6,353 0 2,808 0 0 2,805 2 177,102 ctdprd51.pg_catalog.pg_depend 1 1 569 0 144 0 65 268 129 496,773 Total 4 3 7,616 266 3,097 0 65 3,352 215 1,284,554 Tuples removed per table
Key values
- pg_catalog.pg_depend (569) Main table with removed tuples on database ctdprd51
- 616 tuples Total removed
Pages removed per table
Key values
- unknown (0) Main table with removed pages on database unknown
- 0 pages Total removed
Autovacuum Activity
↑ Back to the top of the Autovacuum Activity tableDay Hour VACUUMs ANALYZEs Mar 25 00 1 1 01 0 1 02 0 1 03 0 2 04 0 2 05 0 3 06 1 1 07 0 1 08 0 0 09 0 1 10 0 2 11 0 0 12 0 1 13 0 1 14 0 0 15 0 0 16 0 0 17 0 1 18 0 0 19 0 0 20 0 0 21 0 0 22 1 1 23 1 1 - 0.67 sec Highest CPU-cost vacuum
-
Locks
Locks by types
Key values
- unknown Main Lock Type
- 0 locks Total
Most frequent waiting queries (N)
Rank Count Total time Min time Max time Avg duration Query NO DATASET
Queries that waited the most
Rank Wait time Query NO DATASET
-
Queries
Queries by type
Key values
- 35 Total read queries
- 36 Total write queries
Queries by database
Key values
- ctdprd51 Main database
- 38 Requests
- 1h14m43s (ctdprd51)
- Main time consuming database
Queries by user
Key values
- unknown Main user
- 88 Requests
User Request type Count Duration postgres Total 16 17m24s copy to 16 17m24s pubc Total 1 9m11s select 1 9m11s pubeu Total 74 1h16m40s select 74 1h16m40s qaeu Total 6 36s798ms select 6 36s798ms unknown Total 88 23m1s copy to 56 11m48s others 1 6s641ms select 31 11m6s Duration by user
Key values
- 1h16m40s (pubeu) Main time consuming user
User Request type Count Duration postgres Total 16 17m24s copy to 16 17m24s pubc Total 1 9m11s select 1 9m11s pubeu Total 74 1h16m40s select 74 1h16m40s qaeu Total 6 36s798ms select 6 36s798ms unknown Total 88 23m1s copy to 56 11m48s others 1 6s641ms select 31 11m6s Queries by host
Key values
- unknown Main host
- 185 Requests
- 2h6m54s (unknown)
- Main time consuming host
Queries by application
Key values
- unknown Main application
- 63 Requests
- 1h10m39s (unknown)
- Main time consuming application
Number of cancelled queries
Key values
- 0 per second Cancelled query Peak
- 2026-03-25 23:16:56 Date
Number of cancelled queries (5 minutes period)
NO DATASET
-
Top Queries
Histogram of query times
Key values
- 42 > 10000ms duration
Slowest individual queries
Rank Duration Query 1 9m11s /* * Run daily to prune LOG_QUERY, archive old queries to LOG_QUERY_ARCHIVE * and vacuum/analyze the tables. * * $Id: archive_query_logs.sql 10832 2012-03-19 15:27:11Z mcr $ */ SELECT maint_query_logs_archive ();[ Date: 2026-03-25 00:09:12 - Database: ctdprd51 - User: pubc - Application: psql ]
2 4m20s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:10:18 - Database: ctdprd51 - User: pubeu - Bind query: yes ]
3 4m19s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:10:25 - Database: ctdprd51 - User: pubeu - Bind query: yes ]
4 4m8s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:10:33 - Database: ctdprd51 - User: pubeu - Bind query: yes ]
5 4m5s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:11:04 - Database: ctdprd51 - User: pubeu - Bind query: yes ]
6 4m1s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:09:57 - Database: ctdprd51 - User: pubeu - Bind query: yes ]
7 4m1s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:10:26 - Database: ctdprd51 - User: pubeu - Bind query: yes ]
8 3m58s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:10:00 - Database: ctdprd51 - User: pubeu - Bind query: yes ]
9 3m53s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:11:01 - Database: ctdprd51 - User: pubeu - Bind query: yes ]
10 3m53s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:10:54 - Database: ctdprd51 - User: pubeu - Bind query: yes ]
11 3m51s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:12:39 - Database: ctdprd51 - User: pubeu - Bind query: yes ]
12 3m48s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:14:41 - Bind query: yes ]
13 3m40s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:13:23 - Database: ctdprd51 - User: pubeu - Bind query: yes ]
14 3m38s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:13:53 - Database: ctdprd51 - User: pubeu - Bind query: yes ]
15 3m38s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:16:00 - Database: ctdprd51 - User: pubeu - Bind query: yes ]
16 3m37s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:16:06 - Bind query: yes ]
17 3m36s SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;[ Date: 2026-03-25 22:16:39 - Database: ctdprd51 - User: pubeu - Bind query: yes ]
18 1m52s COPY pubc.log_query_archive (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, gene_set_txt, molecule_type_txt, volume_txt, first_page_txt, journal_query_type, journal_txt, is_review, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;[ Date: 2026-03-25 14:06:53 - Database: ctdprd51 - User: postgres - Application: pg_dump ]
19 1m51s COPY pubc.log_query_archive (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, gene_set_txt, molecule_type_txt, volume_txt, first_page_txt, journal_query_type, journal_txt, is_review, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;[ Date: 2026-03-25 06:06:53 - Database: ctdprd51 - User: postgres - Application: pg_dump ]
20 1m51s COPY pubc.log_query_archive (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, gene_set_txt, molecule_type_txt, volume_txt, first_page_txt, journal_query_type, journal_txt, is_review, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;[ Date: 2026-03-25 18:06:53 - Database: ctdprd51 - User: postgres - Application: pg_dump ]
Time consuming queries (N)
Rank Total duration Times executed Min duration Max duration Avg duration Query 1 1h2m34s 16 3m36s 4m20s 3m54s select phenotypeterm.nm gonm, phenotypeterm.nm_html gonmhtml, phenotypeterm.acc_txt goacc, phenotypeterm.id goid, diseaseterm.nm diseasenm, diseaseterm.acc_txt diseaseacc, diseaseterm.acc_db_cd diseaseaccdbcd, diseaseterm.id diseaseid, via_gene_qty genenetworkcount, via_chem_qty chemnetworkcount, indirect_reference_qty referencecount, count(*) over () fullrowcount from phenotype_term pt inner join term phenotypeterm on pt.phenotype_id = phenotypeterm.id inner join term diseaseterm on pt.term_id = diseaseterm.id where phenotypeterm.id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id = ?) and diseaseterm.object_type_id = ? order by chemnetworkcount desc, genenetworkcount desc limit ?;Times Reported Time consuming queries #1
Day Hour Count Duration Avg duration Mar 25 22 16 1h2m34s 3m54s [ User: pubeu - Total duration: 55m7s - Times executed: 14 ]
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SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;
Date: 2026-03-25 22:10:18 Duration: 4m20s Database: ctdprd51 User: pubeu Bind query: yes
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SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;
Date: 2026-03-25 22:10:25 Duration: 4m19s Database: ctdprd51 User: pubeu Bind query: yes
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SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;
Date: 2026-03-25 22:10:33 Duration: 4m8s Database: ctdprd51 User: pubeu Bind query: yes
2 9m11s 1 9m11s 9m11s 9m11s select maint_query_logs_archive ();Times Reported Time consuming queries #2
Day Hour Count Duration Avg duration Mar 25 00 1 9m11s 9m11s [ User: pubc - Total duration: 9m11s - Times executed: 1 ]
[ Application: psql - Total duration: 9m11s - Times executed: 1 ]
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/* * Run daily to prune LOG_QUERY, archive old queries to LOG_QUERY_ARCHIVE * and vacuum/analyze the tables. * * $Id: archive_query_logs.sql 10832 2012-03-19 15:27:11Z mcr $ */ SELECT maint_query_logs_archive ();
Date: 2026-03-25 00:09:12 Duration: 9m11s Database: ctdprd51 User: pubc Application: psql
3 7m26s 4 1m51s 1m52s 1m51s copy pubc.log_query_archive (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, gene_set_txt, molecule_type_txt, volume_txt, first_page_txt, journal_query_type, journal_txt, is_review, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) to stdout;Times Reported Time consuming queries #3
Day Hour Count Duration Avg duration Mar 25 06 1 1m51s 1m51s 10 1 1m51s 1m51s 14 1 1m52s 1m52s 18 1 1m51s 1m51s [ User: postgres - Total duration: 7m26s - Times executed: 4 ]
[ Application: pg_dump - Total duration: 7m26s - Times executed: 4 ]
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COPY pubc.log_query_archive (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, gene_set_txt, molecule_type_txt, volume_txt, first_page_txt, journal_query_type, journal_txt, is_review, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 14:06:53 Duration: 1m52s Database: ctdprd51 User: postgres Application: pg_dump
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COPY pubc.log_query_archive (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, gene_set_txt, molecule_type_txt, volume_txt, first_page_txt, journal_query_type, journal_txt, is_review, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 06:06:53 Duration: 1m51s Database: ctdprd51 User: postgres Application: pg_dump
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COPY pubc.log_query_archive (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, gene_set_txt, molecule_type_txt, volume_txt, first_page_txt, journal_query_type, journal_txt, is_review, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 18:06:53 Duration: 1m51s Database: ctdprd51 User: postgres Application: pg_dump
4 1m35s 4 23s923ms 24s73ms 23s968ms copy pubc.log_query_bots (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) to stdout;Times Reported Time consuming queries #4
Day Hour Count Duration Avg duration Mar 25 06 1 23s923ms 23s923ms 10 1 23s927ms 23s927ms 14 1 24s73ms 24s73ms 18 1 23s949ms 23s949ms -
COPY pubc.log_query_bots (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 14:07:17 Duration: 24s73ms
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COPY pubc.log_query_bots (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 18:07:17 Duration: 23s949ms
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COPY pubc.log_query_bots (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 10:07:17 Duration: 23s927ms
5 1m15s 4 18s785ms 19s46ms 18s874ms copy edit.db_link (object_id, object_type_id, acc_txt, db_id, type_cd, is_primary, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #5
Day Hour Count Duration Avg duration Mar 25 06 1 19s46ms 19s46ms 10 1 18s874ms 18s874ms 14 1 18s789ms 18s789ms 18 1 18s785ms 18s785ms [ User: postgres - Total duration: 1m15s - Times executed: 4 ]
[ Application: pg_dump - Total duration: 1m15s - Times executed: 4 ]
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COPY edit.db_link (object_id, object_type_id, acc_txt, db_id, type_cd, is_primary, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:00:20 Duration: 19s46ms Database: ctdprd51 User: postgres Application: pg_dump
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COPY edit.db_link (object_id, object_type_id, acc_txt, db_id, type_cd, is_primary, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:00:20 Duration: 18s874ms Database: ctdprd51 User: postgres Application: pg_dump
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COPY edit.db_link (object_id, object_type_id, acc_txt, db_id, type_cd, is_primary, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 14:00:21 Duration: 18s789ms Database: ctdprd51 User: postgres Application: pg_dump
6 1m1s 4 15s432ms 15s554ms 15s490ms copy pubc.log_query_bots_original (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status, user_agent_pattern) to stdout;Times Reported Time consuming queries #6
Day Hour Count Duration Avg duration Mar 25 06 1 15s432ms 15s432ms 10 1 15s554ms 15s554ms 14 1 15s492ms 15s492ms 18 1 15s481ms 15s481ms -
COPY pubc.log_query_bots_original (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status, user_agent_pattern) TO stdout;
Date: 2026-03-25 10:07:32 Duration: 15s554ms
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COPY pubc.log_query_bots_original (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status, user_agent_pattern) TO stdout;
Date: 2026-03-25 14:07:33 Duration: 15s492ms
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COPY pubc.log_query_bots_original (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status, user_agent_pattern) TO stdout;
Date: 2026-03-25 18:07:32 Duration: 15s481ms
7 58s781ms 4 14s564ms 14s867ms 14s695ms copy edit.ixn_actor (ixn_id, position_seq, object_type_id, acc_txt, acc_db_id, object_nm, actor_form_type_id, qual_actor_form_type_id, seq_acc_txt, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #7
Day Hour Count Duration Avg duration Mar 25 06 1 14s706ms 14s706ms 10 1 14s867ms 14s867ms 14 1 14s564ms 14s564ms 18 1 14s643ms 14s643ms -
COPY edit.ixn_actor (ixn_id, position_seq, object_type_id, acc_txt, acc_db_id, object_nm, actor_form_type_id, qual_actor_form_type_id, seq_acc_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:00:51 Duration: 14s867ms
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COPY edit.ixn_actor (ixn_id, position_seq, object_type_id, acc_txt, acc_db_id, object_nm, actor_form_type_id, qual_actor_form_type_id, seq_acc_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:00:51 Duration: 14s706ms
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COPY edit.ixn_actor (ixn_id, position_seq, object_type_id, acc_txt, acc_db_id, object_nm, actor_form_type_id, qual_actor_form_type_id, seq_acc_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 18:00:51 Duration: 14s643ms
8 57s753ms 4 14s375ms 14s483ms 14s438ms copy edit.reference (id, title, journal_nm, issue, pages_txt, page_position_seq, volume, pub_dt_format_mask, pub_start_dt, pub_end_dt, pub_start_season_nm, pub_end_season_nm, is_review, is_author_list_complete, affiliation_txt, abstract_txt, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #8
Day Hour Count Duration Avg duration Mar 25 06 1 14s426ms 14s426ms 10 1 14s483ms 14s483ms 14 1 14s375ms 14s375ms 18 1 14s468ms 14s468ms -
COPY edit.reference (id, title, journal_nm, issue, pages_txt, page_position_seq, volume, pub_dt_format_mask, pub_start_dt, pub_end_dt, pub_start_season_nm, pub_end_season_nm, is_review, is_author_list_complete, affiliation_txt, abstract_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:01:06 Duration: 14s483ms
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COPY edit.reference (id, title, journal_nm, issue, pages_txt, page_position_seq, volume, pub_dt_format_mask, pub_start_dt, pub_end_dt, pub_start_season_nm, pub_end_season_nm, is_review, is_author_list_complete, affiliation_txt, abstract_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 18:01:05 Duration: 14s468ms
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COPY edit.reference (id, title, journal_nm, issue, pages_txt, page_position_seq, volume, pub_dt_format_mask, pub_start_dt, pub_end_dt, pub_start_season_nm, pub_end_season_nm, is_review, is_author_list_complete, affiliation_txt, abstract_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:01:06 Duration: 14s426ms
9 29s639ms 4 7s276ms 7s530ms 7s409ms select distinct associatedterm.nm || ? || o.cd || ? || associatedterm.nm_html || ? || associatedterm.acc_txt || ? || associatedterm.acc_db_cd as associatedterm, associatedterm.id associatedtermid, ptr.ixn_id ixnid, associatedterm.object_type_id || ? || associatedterm.nm_sort associatedtermnmsort, coalesce(associatedterm.secondary_nm, ?) casrn, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotype, phenotypeterm.id phenotypeid, ( select string_agg(distinct taxonterm.nm || ? || ? || ? || taxonterm.nm_html || ? || taxonterm.acc_txt || ? || taxonterm.acc_db_cd || ? || coalesce(taxonterm.secondary_nm, ?), ?)) as taxonterms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || ia.level_seq || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, count(distinct taxonterm.nm) taxoncount, i.ixn_prose_html ixnprosehtml, i.ixn_prose_txt ixnprose, i.sort_txt ixnsort, ( select string_agg(distinct r.acc_txt, ?)) as references, count(distinct ptr.reference_id) refcount, pt.indirect_term_qty inferredcount, count(*) over () fullrowcount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedterm on ptr.term_id = associatedterm.id inner join term phenotypeterm on ptr.phenotype_id = phenotypeterm.id left outer join term taxonterm on ptr.taxon_id = taxonterm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedterm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyterm on ia.anatomy_id = anatomyterm.id where ptr.term_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?)) and ptr.term_object_type_id = ? and ptr.phenotype_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?))) and taxonterm.id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = ? and action_degree_type_nm in (...)) group by associatedterm, associatedtermnmsort, phenotype, casrn, ixnid, ixnprosehtml, ixnprose, ixnsort, associatedtermid, phenotypeid, inferredcount order by associatedtermnmsort asc, pt.indirect_term_qty desc limit ?;Times Reported Time consuming queries #9
Day Hour Count Duration Avg duration Mar 25 05 2 14s664ms 7s332ms 10 2 14s974ms 7s487ms [ User: pubeu - Total duration: 14s721ms - Times executed: 2 ]
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ACETYLCYSTEINE')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006979' AND l.type_cd = 'A' AND l.object_type_id = 5))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 10 and upper(baseTerm.nm) LIKE 'CARDIOVASCULAR SYSTEM'))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9605' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 10:28:33 Duration: 7s530ms Bind query: yes
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ACETYLCYSTEINE')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006979' AND l.type_cd = 'A' AND l.object_type_id = 5))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 10 and upper(baseTerm.nm) LIKE 'CARDIOVASCULAR SYSTEM'))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9605' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 10:33:30 Duration: 7s444ms Database: ctdprd51 User: pubeu Bind query: yes
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ACETYLCYSTEINE')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006979' AND l.type_cd = 'A' AND l.object_type_id = 5))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 10 and upper(baseTerm.nm) LIKE 'CARDIOVASCULAR SYSTEM'))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9605' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 05:44:11 Duration: 7s387ms Bind query: yes
10 29s398ms 4 7s306ms 7s439ms 7s349ms select distinct associatedterm.nm || ? || o.cd || ? || associatedterm.nm_html || ? || associatedterm.acc_txt || ? || associatedterm.acc_db_cd as associatedterm, associatedterm.id associatedtermid, ptr.ixn_id ixnid, associatedterm.object_type_id || ? || associatedterm.nm_sort associatedtermnmsort, coalesce(associatedterm.secondary_nm, ?) casrn, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotype, phenotypeterm.id phenotypeid, ( select string_agg(distinct taxonterm.nm || ? || ? || ? || taxonterm.nm_html || ? || taxonterm.acc_txt || ? || taxonterm.acc_db_cd || ? || coalesce(taxonterm.secondary_nm, ?), ?)) as taxonterms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || ia.level_seq || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, count(distinct taxonterm.nm) taxoncount, i.ixn_prose_html ixnprosehtml, i.ixn_prose_txt ixnprose, i.sort_txt ixnsort, ( select string_agg(distinct r.acc_txt, ?)) as references, count(distinct ptr.reference_id) refcount, pt.indirect_term_qty inferredcount, count(*) over () fullrowcount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedterm on ptr.term_id = associatedterm.id inner join term phenotypeterm on ptr.phenotype_id = phenotypeterm.id left outer join term taxonterm on ptr.taxon_id = taxonterm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedterm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyterm on ia.anatomy_id = anatomyterm.id where ptr.term_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?)) and ptr.term_object_type_id = ? and ptr.phenotype_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and taxonterm.id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = ? and action_degree_type_nm in (...)) group by associatedterm, associatedtermnmsort, phenotype, casrn, ixnid, ixnprosehtml, ixnprose, ixnsort, associatedtermid, phenotypeid, inferredcount order by associatedtermnmsort asc, pt.indirect_term_qty desc limit ?;Times Reported Time consuming queries #10
Day Hour Count Duration Avg duration Mar 25 05 2 14s652ms 7s326ms 10 2 14s746ms 7s373ms [ User: pubeu - Total duration: 14s774ms - Times executed: 2 ]
[ User: qaeu - Total duration: 7s317ms - Times executed: 1 ]
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ZINC')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006915' AND l.type_cd = 'A' AND l.object_type_id = 5))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9606' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 10:33:23 Duration: 7s439ms Database: ctdprd51 User: pubeu Bind query: yes
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ZINC')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006915' AND l.type_cd = 'A' AND l.object_type_id = 5))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9606' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 05:49:08 Duration: 7s334ms Database: ctdprd51 User: pubeu Bind query: yes
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ZINC')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006915' AND l.type_cd = 'A' AND l.object_type_id = 5))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9606' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 05:44:03 Duration: 7s317ms Database: ctdprd51 User: qaeu Bind query: yes
11 29s380ms 4 7s285ms 7s393ms 7s345ms copy edit.ixn (id, ixn_type_id, parent_id, position_seq, root_id, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #11
Day Hour Count Duration Avg duration Mar 25 06 1 7s393ms 7s393ms 10 1 7s371ms 7s371ms 14 1 7s285ms 7s285ms 18 1 7s329ms 7s329ms -
COPY edit.ixn (id, ixn_type_id, parent_id, position_seq, root_id, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:00:30 Duration: 7s393ms
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COPY edit.ixn (id, ixn_type_id, parent_id, position_seq, root_id, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:00:30 Duration: 7s371ms
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COPY edit.ixn (id, ixn_type_id, parent_id, position_seq, root_id, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 18:00:30 Duration: 7s329ms
12 25s804ms 4 6s390ms 6s479ms 6s451ms copy edit.reference_ixn (id, reference_acc_txt, reference_acc_db_id, ixn_id, taxon_acc_txt, taxon_acc_db_id, evidence_cd, source_cd, field_cd, internal_note, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #12
Day Hour Count Duration Avg duration Mar 25 06 1 6s479ms 6s479ms 10 1 6s459ms 6s459ms 14 1 6s390ms 6s390ms 18 1 6s474ms 6s474ms -
COPY edit.reference_ixn (id, reference_acc_txt, reference_acc_db_id, ixn_id, taxon_acc_txt, taxon_acc_db_id, evidence_cd, source_cd, field_cd, internal_note, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:01:14 Duration: 6s479ms
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COPY edit.reference_ixn (id, reference_acc_txt, reference_acc_db_id, ixn_id, taxon_acc_txt, taxon_acc_db_id, evidence_cd, source_cd, field_cd, internal_note, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 18:01:13 Duration: 6s474ms
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COPY edit.reference_ixn (id, reference_acc_txt, reference_acc_db_id, ixn_id, taxon_acc_txt, taxon_acc_db_id, evidence_cd, source_cd, field_cd, internal_note, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:01:14 Duration: 6s459ms
13 24s354ms 4 6s50ms 6s155ms 6s88ms copy edit.ixn_action (ixn_id, action_type_id, action_degree_type_id, position_seq, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #13
Day Hour Count Duration Avg duration Mar 25 06 1 6s155ms 6s155ms 10 1 6s81ms 6s81ms 14 1 6s50ms 6s50ms 18 1 6s67ms 6s67ms -
COPY edit.ixn_action (ixn_id, action_type_id, action_degree_type_id, position_seq, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:00:36 Duration: 6s155ms
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COPY edit.ixn_action (ixn_id, action_type_id, action_degree_type_id, position_seq, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:00:36 Duration: 6s81ms
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COPY edit.ixn_action (ixn_id, action_type_id, action_degree_type_id, position_seq, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 18:00:36 Duration: 6s67ms
14 20s560ms 4 5s76ms 5s207ms 5s140ms select ? "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casrn "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" from ( with sq as ( select distinct c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casrn, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort from term c inner join gene_chem_reference gcr on c.id = gcr.chem_id inner join term g on gcr.gene_id = g.id where (c.id = ?)) select distinct sq.chem_nm, sq.chem_acc_txt, sq.casrn, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm from sq inner join gene_go_annot gga on sq.gene_id = gga.gene_id inner join dag_node gt on gga.go_term_id = gt.object_id inner join dag d on gt.dag_id = d.id where gga.is_not = false and (d.id = ? or d.id = ?) order by sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;Times Reported Time consuming queries #14
Day Hour Count Duration Avg duration Mar 25 05 2 10s277ms 5s138ms 10 2 10s283ms 5s141ms [ User: pubeu - Total duration: 10s332ms - Times executed: 2 ]
[ User: qaeu - Total duration: 10s227ms - Times executed: 2 ]
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SELECT /* BatchChemGODAO */ 'ddt' "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casRN "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" FROM ( WITH sq AS ( SELECT DISTINCT c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casRN, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort FROM term c INNER JOIN gene_chem_reference gcr ON c.id = gcr.chem_id INNER JOIN term g ON gcr.gene_id = g.id WHERE (c.id = 1335246)) SELECT DISTINCT sq.chem_nm, sq.chem_acc_txt, sq.casRN, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm FROM sq INNER JOIN gene_go_annot gga ON sq.gene_id = gga.gene_id INNER JOIN dag_node gt ON gga.go_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE gga.is_not = false AND (d.id = 5 OR d.id = 4) ORDER BY sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;
Date: 2026-03-25 10:32:54 Duration: 5s207ms Database: ctdprd51 User: pubeu Bind query: yes
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SELECT /* BatchChemGODAO */ 'ddt' "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casRN "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" FROM ( WITH sq AS ( SELECT DISTINCT c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casRN, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort FROM term c INNER JOIN gene_chem_reference gcr ON c.id = gcr.chem_id INNER JOIN term g ON gcr.gene_id = g.id WHERE (c.id = 1335246)) SELECT DISTINCT sq.chem_nm, sq.chem_acc_txt, sq.casRN, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm FROM sq INNER JOIN gene_go_annot gga ON sq.gene_id = gga.gene_id INNER JOIN dag_node gt ON gga.go_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE gga.is_not = false AND (d.id = 5 OR d.id = 4) ORDER BY sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;
Date: 2026-03-25 05:43:38 Duration: 5s151ms Database: ctdprd51 User: qaeu Bind query: yes
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SELECT /* BatchChemGODAO */ 'ddt' "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casRN "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" FROM ( WITH sq AS ( SELECT DISTINCT c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casRN, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort FROM term c INNER JOIN gene_chem_reference gcr ON c.id = gcr.chem_id INNER JOIN term g ON gcr.gene_id = g.id WHERE (c.id = 1335246)) SELECT DISTINCT sq.chem_nm, sq.chem_acc_txt, sq.casRN, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm FROM sq INNER JOIN gene_go_annot gga ON sq.gene_id = gga.gene_id INNER JOIN dag_node gt ON gga.go_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE gga.is_not = false AND (d.id = 5 OR d.id = 4) ORDER BY sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;
Date: 2026-03-25 05:48:42 Duration: 5s125ms Database: ctdprd51 User: pubeu Bind query: yes
15 13s497ms 1 13s497ms 13s497ms 13s497ms select ii.cd, count(ii.id) cnt from ( select ot.cd, tl.term_id id from object_type ot inner join term_label tl on ot.id = tl.object_type_id where tl.nm_fts @@ to_tsquery(?, ?) union select ?, r.id from reference r where r.title_abstract_fts @@ to_tsquery(?, ?) or r.id in ( select rpr.reference_id from reference_party_role rpr inner join reference_party rp on rpr.reference_party_id = rp.id where (substr(get_reference_party_nm_sort (rp.required_nm), ?, ?) like ? or substr(get_reference_party_nm_sort (rp.required_nm), ?, ?) like ? or substr(get_reference_party_nm_sort (rp.required_nm), ?, ?) like ?)) union select ot.cd, l.object_id from db_link l inner join object_type ot on l.object_type_id = ot.id where l.type_cd = ? and (upper(l.acc_txt) like ? or upper(l.acc_txt) like ? or upper(l.acc_txt) like ?)) ii group by ii.cd;Times Reported Time consuming queries #15
Day Hour Count Duration Avg duration Mar 25 10 1 13s497ms 13s497ms [ User: pubeu - Total duration: 13s497ms - Times executed: 1 ]
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SELECT /* BasicCountsDAO gen */ ii.cd, COUNT(ii.id) cnt FROM ( SELECT ot.cd, tl.term_id id FROM object_type ot INNER JOIN term_label tl ON ot.id = tl.object_type_id WHERE tl.nm_fts @@ to_tsquery('common.english_nostops', 'METAL & ION_ & TRANSPORT') UNION SELECT 'reference', r.id FROM reference r WHERE r.title_abstract_fts @@ to_tsquery('pg_catalog.english', 'METAL & ION_ & TRANSPORT') OR r.id IN ( SELECT rpr.reference_id FROM reference_party_role rpr INNER JOIN reference_party rp ON rpr.reference_party_id = rp.id WHERE (SUBSTR(get_reference_party_nm_sort (rp.required_nm), 1, 128) LIKE 'METAL' OR SUBSTR(get_reference_party_nm_sort (rp.required_nm), 1, 128) LIKE 'ION_' OR SUBSTR(get_reference_party_nm_sort (rp.required_nm), 1, 128) LIKE 'TRANSPORT')) UNION SELECT ot.cd, l.object_id FROM db_link l INNER JOIN object_type ot on l.object_type_id = ot.id WHERE l.type_cd = 'A' AND (upper(l.acc_txt) LIKE 'METAL' OR upper(l.acc_txt) LIKE 'ION_' OR upper(l.acc_txt) LIKE 'TRANSPORT')) ii GROUP BY ii.cd;
Date: 2026-03-25 10:09:29 Duration: 13s497ms Database: ctdprd51 User: pubeu Bind query: yes
16 12s690ms 2 6s272ms 6s417ms 6s345ms select p.ancestor_object_id, p.descendant_object_id from dag_path p where p.descendant_object_id in ( select go_term_id from gene_go_annot gga where gga.taxon_id = ( select id from term where acc_txt = ? and object_type_id = ( select id from object_type where cd = ?)) and gga.is_not = ?) and p.ancestor_object_id not in ( select c.id from term c where c.acc_txt in (...) and c.object_type_id = ( select id from object_type where cd = ?));Times Reported Time consuming queries #16
Day Hour Count Duration Avg duration Mar 25 10 2 12s690ms 6s345ms [ User: qaeu - Total duration: 6s417ms - Times executed: 1 ]
[ User: pubeu - Total duration: 6s272ms - Times executed: 1 ]
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select p.ancestor_object_id, p.descendant_object_id from DAG_PATH p where p.descendant_object_id in ( select go_term_id from GENE_GO_ANNOT gga where gga.taxon_id = ( select id from TERM where acc_txt = '9606' and object_type_id = ( select id from OBJECT_TYPE where cd = 'taxon')) AND gga.is_not = 'f') and p.ancestor_object_id NOT in ( SELECT c.id FROM TERM c WHERE c.acc_txt in ('ALL') AND c.object_type_id = ( select id from OBJECT_TYPE where cd = 'go'));
Date: 2026-03-25 10:20:14 Duration: 6s417ms Database: ctdprd51 User: qaeu Bind query: yes
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select p.ancestor_object_id, p.descendant_object_id from DAG_PATH p where p.descendant_object_id in ( select go_term_id from GENE_GO_ANNOT gga where gga.taxon_id = ( select id from TERM where acc_txt = '9606' and object_type_id = ( select id from OBJECT_TYPE where cd = 'taxon')) AND gga.is_not = 'f') and p.ancestor_object_id NOT in ( SELECT c.id FROM TERM c WHERE c.acc_txt in ('ALL') AND c.object_type_id = ( select id from OBJECT_TYPE where cd = 'go'));
Date: 2026-03-25 10:30:32 Duration: 6s272ms Database: ctdprd51 User: pubeu Bind query: yes
17 10s401ms 2 5s187ms 5s214ms 5s200ms select d.abbr dagabbr, d.nm dagnm, gt.level_min_no daglevelmin, gt.nm gonm, gt.nm_html gonmhtml, gt.acc_txt goacc, gt.object_id goid, te.corrected_p_val pvalcorrected, te.raw_p_val pvalraw, te.target_match_qty targetmatchqty, te.target_total_qty targettotalqty, te.background_match_qty backgroundmatchqty, te.background_total_qty backgroundtotalqty, count(*) over () fullrowcount from term_enrichment te inner join dag_node gt on te.enriched_term_id = gt.object_id inner join dag d on gt.dag_id = d.id where te.term_id = ? and te.enriched_object_type_id = ? order by te.corrected_p_val, d.abbr, gt.nm_sort limit ?;Times Reported Time consuming queries #17
Day Hour Count Duration Avg duration Mar 25 03 1 5s187ms 5s187ms 04 1 5s214ms 5s214ms [ User: pubeu - Total duration: 10s401ms - Times executed: 2 ]
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SELECT /* ChemGODAO */ d.abbr dagAbbr, d.nm dagNm, gt.level_min_no dagLevelMin, gt.nm gonm, gt.nm_html gonmhtml, gt.acc_txt goacc, gt.object_id goid, te.corrected_p_val pValCorrected, te.raw_p_val pValRaw, te.target_match_qty targetmatchqty, te.target_total_qty targettotalqty, te.background_match_qty backgroundmatchqty, te.background_total_qty backgroundtotalqty, COUNT(*) OVER () fullRowCount FROM term_enrichment te INNER JOIN dag_node gt ON te.enriched_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE te.term_id = '1396478' AND te.enriched_object_type_id = 5 ORDER BY te.corrected_p_val, d.abbr, gt.nm_sort LIMIT 50;
Date: 2026-03-25 04:58:55 Duration: 5s214ms Database: ctdprd51 User: pubeu Bind query: yes
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SELECT /* ChemGODAO */ d.abbr dagAbbr, d.nm dagNm, gt.level_min_no dagLevelMin, gt.nm gonm, gt.nm_html gonmhtml, gt.acc_txt goacc, gt.object_id goid, te.corrected_p_val pValCorrected, te.raw_p_val pValRaw, te.target_match_qty targetmatchqty, te.target_total_qty targettotalqty, te.background_match_qty backgroundmatchqty, te.background_total_qty backgroundtotalqty, COUNT(*) OVER () fullRowCount FROM term_enrichment te INNER JOIN dag_node gt ON te.enriched_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE te.term_id = '1315119' AND te.enriched_object_type_id = 5 ORDER BY te.corrected_p_val, d.abbr, gt.nm_sort LIMIT 50;
Date: 2026-03-25 03:23:18 Duration: 5s187ms Database: ctdprd51 User: pubeu Bind query: yes
18 8s527ms 1 8s527ms 8s527ms 8s527ms select distinct associatedterm.nm || ? || o.cd || ? || associatedterm.nm_html || ? || associatedterm.acc_txt || ? || associatedterm.acc_db_cd as associatedterm, associatedterm.id associatedtermid, ptr.ixn_id ixnid, associatedterm.object_type_id || ? || associatedterm.nm_sort associatedtermnmsort, coalesce(associatedterm.secondary_nm, ?) casrn, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotype, phenotypeterm.id phenotypeid, ( select string_agg(distinct taxonterm.nm || ? || ? || ? || taxonterm.nm_html || ? || taxonterm.acc_txt || ? || taxonterm.acc_db_cd || ? || coalesce(taxonterm.secondary_nm, ?), ?)) as taxonterms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || ia.level_seq || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, count(distinct taxonterm.nm) taxoncount, i.ixn_prose_html ixnprosehtml, i.ixn_prose_txt ixnprose, i.sort_txt ixnsort, ( select string_agg(distinct r.acc_txt, ?)) as references, count(distinct ptr.reference_id) refcount, pt.indirect_term_qty inferredcount, count(*) over () fullrowcount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedterm on ptr.term_id = associatedterm.id inner join term phenotypeterm on ptr.phenotype_id = phenotypeterm.id left outer join term taxonterm on ptr.taxon_id = taxonterm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedterm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyterm on ia.anatomy_id = anatomyterm.id where ptr.term_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?)) and i.id in ( select ixn_id from ixn_axn where action_type_nm = ? and action_degree_type_nm in (...)) group by associatedterm, associatedtermnmsort, phenotype, casrn, ixnid, ixnprosehtml, ixnprose, ixnsort, associatedtermid, phenotypeid, inferredcount order by associatedtermnmsort asc, pt.indirect_term_qty desc limit ?;Times Reported Time consuming queries #18
Day Hour Count Duration Avg duration Mar 25 01 1 8s527ms 8s527ms [ User: pubeu - Total duration: 8s527ms - Times executed: 1 ]
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'BISPHENOL A')) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases', 'decreases', 'affects')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 01:46:47 Duration: 8s527ms Database: ctdprd51 User: pubeu Bind query: yes
19 6s641ms 1 6s641ms 6s641ms 6s641ms vacuum analyze log_query_archive;Times Reported Time consuming queries #19
Day Hour Count Duration Avg duration Mar 25 00 1 6s641ms 6s641ms -
VACUUM ANALYZE log_query_archive;
Date: 2026-03-25 00:09:19 Duration: 6s641ms
Most frequent queries (N)
Rank Times executed Total duration Min duration Max duration Avg duration Query 1 16 1h2m34s 3m36s 4m20s 3m54s select phenotypeterm.nm gonm, phenotypeterm.nm_html gonmhtml, phenotypeterm.acc_txt goacc, phenotypeterm.id goid, diseaseterm.nm diseasenm, diseaseterm.acc_txt diseaseacc, diseaseterm.acc_db_cd diseaseaccdbcd, diseaseterm.id diseaseid, via_gene_qty genenetworkcount, via_chem_qty chemnetworkcount, indirect_reference_qty referencecount, count(*) over () fullrowcount from phenotype_term pt inner join term phenotypeterm on pt.phenotype_id = phenotypeterm.id inner join term diseaseterm on pt.term_id = diseaseterm.id where phenotypeterm.id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id = ?) and diseaseterm.object_type_id = ? order by chemnetworkcount desc, genenetworkcount desc limit ?;Times Reported Time consuming queries #1
Day Hour Count Duration Avg duration Mar 25 22 16 1h2m34s 3m54s [ User: pubeu - Total duration: 55m7s - Times executed: 14 ]
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SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;
Date: 2026-03-25 22:10:18 Duration: 4m20s Database: ctdprd51 User: pubeu Bind query: yes
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SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;
Date: 2026-03-25 22:10:25 Duration: 4m19s Database: ctdprd51 User: pubeu Bind query: yes
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SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;
Date: 2026-03-25 22:10:33 Duration: 4m8s Database: ctdprd51 User: pubeu Bind query: yes
2 4 7m26s 1m51s 1m52s 1m51s copy pubc.log_query_archive (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, gene_set_txt, molecule_type_txt, volume_txt, first_page_txt, journal_query_type, journal_txt, is_review, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) to stdout;Times Reported Time consuming queries #2
Day Hour Count Duration Avg duration Mar 25 06 1 1m51s 1m51s 10 1 1m51s 1m51s 14 1 1m52s 1m52s 18 1 1m51s 1m51s [ User: postgres - Total duration: 7m26s - Times executed: 4 ]
[ Application: pg_dump - Total duration: 7m26s - Times executed: 4 ]
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COPY pubc.log_query_archive (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, gene_set_txt, molecule_type_txt, volume_txt, first_page_txt, journal_query_type, journal_txt, is_review, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 14:06:53 Duration: 1m52s Database: ctdprd51 User: postgres Application: pg_dump
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COPY pubc.log_query_archive (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, gene_set_txt, molecule_type_txt, volume_txt, first_page_txt, journal_query_type, journal_txt, is_review, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 06:06:53 Duration: 1m51s Database: ctdprd51 User: postgres Application: pg_dump
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COPY pubc.log_query_archive (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, gene_set_txt, molecule_type_txt, volume_txt, first_page_txt, journal_query_type, journal_txt, is_review, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 18:06:53 Duration: 1m51s Database: ctdprd51 User: postgres Application: pg_dump
3 4 1m35s 23s923ms 24s73ms 23s968ms copy pubc.log_query_bots (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) to stdout;Times Reported Time consuming queries #3
Day Hour Count Duration Avg duration Mar 25 06 1 23s923ms 23s923ms 10 1 23s927ms 23s927ms 14 1 24s73ms 24s73ms 18 1 23s949ms 23s949ms -
COPY pubc.log_query_bots (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 14:07:17 Duration: 24s73ms
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COPY pubc.log_query_bots (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 18:07:17 Duration: 23s949ms
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COPY pubc.log_query_bots (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 10:07:17 Duration: 23s927ms
4 4 1m15s 18s785ms 19s46ms 18s874ms copy edit.db_link (object_id, object_type_id, acc_txt, db_id, type_cd, is_primary, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #4
Day Hour Count Duration Avg duration Mar 25 06 1 19s46ms 19s46ms 10 1 18s874ms 18s874ms 14 1 18s789ms 18s789ms 18 1 18s785ms 18s785ms [ User: postgres - Total duration: 1m15s - Times executed: 4 ]
[ Application: pg_dump - Total duration: 1m15s - Times executed: 4 ]
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COPY edit.db_link (object_id, object_type_id, acc_txt, db_id, type_cd, is_primary, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:00:20 Duration: 19s46ms Database: ctdprd51 User: postgres Application: pg_dump
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COPY edit.db_link (object_id, object_type_id, acc_txt, db_id, type_cd, is_primary, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:00:20 Duration: 18s874ms Database: ctdprd51 User: postgres Application: pg_dump
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COPY edit.db_link (object_id, object_type_id, acc_txt, db_id, type_cd, is_primary, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 14:00:21 Duration: 18s789ms Database: ctdprd51 User: postgres Application: pg_dump
5 4 1m1s 15s432ms 15s554ms 15s490ms copy pubc.log_query_bots_original (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status, user_agent_pattern) to stdout;Times Reported Time consuming queries #5
Day Hour Count Duration Avg duration Mar 25 06 1 15s432ms 15s432ms 10 1 15s554ms 15s554ms 14 1 15s492ms 15s492ms 18 1 15s481ms 15s481ms -
COPY pubc.log_query_bots_original (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status, user_agent_pattern) TO stdout;
Date: 2026-03-25 10:07:32 Duration: 15s554ms
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COPY pubc.log_query_bots_original (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status, user_agent_pattern) TO stdout;
Date: 2026-03-25 14:07:33 Duration: 15s492ms
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COPY pubc.log_query_bots_original (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status, user_agent_pattern) TO stdout;
Date: 2026-03-25 18:07:32 Duration: 15s481ms
6 4 58s781ms 14s564ms 14s867ms 14s695ms copy edit.ixn_actor (ixn_id, position_seq, object_type_id, acc_txt, acc_db_id, object_nm, actor_form_type_id, qual_actor_form_type_id, seq_acc_txt, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #6
Day Hour Count Duration Avg duration Mar 25 06 1 14s706ms 14s706ms 10 1 14s867ms 14s867ms 14 1 14s564ms 14s564ms 18 1 14s643ms 14s643ms -
COPY edit.ixn_actor (ixn_id, position_seq, object_type_id, acc_txt, acc_db_id, object_nm, actor_form_type_id, qual_actor_form_type_id, seq_acc_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:00:51 Duration: 14s867ms
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COPY edit.ixn_actor (ixn_id, position_seq, object_type_id, acc_txt, acc_db_id, object_nm, actor_form_type_id, qual_actor_form_type_id, seq_acc_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:00:51 Duration: 14s706ms
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COPY edit.ixn_actor (ixn_id, position_seq, object_type_id, acc_txt, acc_db_id, object_nm, actor_form_type_id, qual_actor_form_type_id, seq_acc_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 18:00:51 Duration: 14s643ms
7 4 57s753ms 14s375ms 14s483ms 14s438ms copy edit.reference (id, title, journal_nm, issue, pages_txt, page_position_seq, volume, pub_dt_format_mask, pub_start_dt, pub_end_dt, pub_start_season_nm, pub_end_season_nm, is_review, is_author_list_complete, affiliation_txt, abstract_txt, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #7
Day Hour Count Duration Avg duration Mar 25 06 1 14s426ms 14s426ms 10 1 14s483ms 14s483ms 14 1 14s375ms 14s375ms 18 1 14s468ms 14s468ms -
COPY edit.reference (id, title, journal_nm, issue, pages_txt, page_position_seq, volume, pub_dt_format_mask, pub_start_dt, pub_end_dt, pub_start_season_nm, pub_end_season_nm, is_review, is_author_list_complete, affiliation_txt, abstract_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:01:06 Duration: 14s483ms
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COPY edit.reference (id, title, journal_nm, issue, pages_txt, page_position_seq, volume, pub_dt_format_mask, pub_start_dt, pub_end_dt, pub_start_season_nm, pub_end_season_nm, is_review, is_author_list_complete, affiliation_txt, abstract_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 18:01:05 Duration: 14s468ms
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COPY edit.reference (id, title, journal_nm, issue, pages_txt, page_position_seq, volume, pub_dt_format_mask, pub_start_dt, pub_end_dt, pub_start_season_nm, pub_end_season_nm, is_review, is_author_list_complete, affiliation_txt, abstract_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:01:06 Duration: 14s426ms
8 4 29s639ms 7s276ms 7s530ms 7s409ms select distinct associatedterm.nm || ? || o.cd || ? || associatedterm.nm_html || ? || associatedterm.acc_txt || ? || associatedterm.acc_db_cd as associatedterm, associatedterm.id associatedtermid, ptr.ixn_id ixnid, associatedterm.object_type_id || ? || associatedterm.nm_sort associatedtermnmsort, coalesce(associatedterm.secondary_nm, ?) casrn, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotype, phenotypeterm.id phenotypeid, ( select string_agg(distinct taxonterm.nm || ? || ? || ? || taxonterm.nm_html || ? || taxonterm.acc_txt || ? || taxonterm.acc_db_cd || ? || coalesce(taxonterm.secondary_nm, ?), ?)) as taxonterms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || ia.level_seq || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, count(distinct taxonterm.nm) taxoncount, i.ixn_prose_html ixnprosehtml, i.ixn_prose_txt ixnprose, i.sort_txt ixnsort, ( select string_agg(distinct r.acc_txt, ?)) as references, count(distinct ptr.reference_id) refcount, pt.indirect_term_qty inferredcount, count(*) over () fullrowcount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedterm on ptr.term_id = associatedterm.id inner join term phenotypeterm on ptr.phenotype_id = phenotypeterm.id left outer join term taxonterm on ptr.taxon_id = taxonterm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedterm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyterm on ia.anatomy_id = anatomyterm.id where ptr.term_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?)) and ptr.term_object_type_id = ? and ptr.phenotype_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?))) and taxonterm.id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = ? and action_degree_type_nm in (...)) group by associatedterm, associatedtermnmsort, phenotype, casrn, ixnid, ixnprosehtml, ixnprose, ixnsort, associatedtermid, phenotypeid, inferredcount order by associatedtermnmsort asc, pt.indirect_term_qty desc limit ?;Times Reported Time consuming queries #8
Day Hour Count Duration Avg duration Mar 25 05 2 14s664ms 7s332ms 10 2 14s974ms 7s487ms [ User: pubeu - Total duration: 14s721ms - Times executed: 2 ]
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ACETYLCYSTEINE')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006979' AND l.type_cd = 'A' AND l.object_type_id = 5))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 10 and upper(baseTerm.nm) LIKE 'CARDIOVASCULAR SYSTEM'))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9605' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 10:28:33 Duration: 7s530ms Bind query: yes
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ACETYLCYSTEINE')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006979' AND l.type_cd = 'A' AND l.object_type_id = 5))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 10 and upper(baseTerm.nm) LIKE 'CARDIOVASCULAR SYSTEM'))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9605' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 10:33:30 Duration: 7s444ms Database: ctdprd51 User: pubeu Bind query: yes
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ACETYLCYSTEINE')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006979' AND l.type_cd = 'A' AND l.object_type_id = 5))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 10 and upper(baseTerm.nm) LIKE 'CARDIOVASCULAR SYSTEM'))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9605' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 05:44:11 Duration: 7s387ms Bind query: yes
9 4 29s398ms 7s306ms 7s439ms 7s349ms select distinct associatedterm.nm || ? || o.cd || ? || associatedterm.nm_html || ? || associatedterm.acc_txt || ? || associatedterm.acc_db_cd as associatedterm, associatedterm.id associatedtermid, ptr.ixn_id ixnid, associatedterm.object_type_id || ? || associatedterm.nm_sort associatedtermnmsort, coalesce(associatedterm.secondary_nm, ?) casrn, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotype, phenotypeterm.id phenotypeid, ( select string_agg(distinct taxonterm.nm || ? || ? || ? || taxonterm.nm_html || ? || taxonterm.acc_txt || ? || taxonterm.acc_db_cd || ? || coalesce(taxonterm.secondary_nm, ?), ?)) as taxonterms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || ia.level_seq || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, count(distinct taxonterm.nm) taxoncount, i.ixn_prose_html ixnprosehtml, i.ixn_prose_txt ixnprose, i.sort_txt ixnsort, ( select string_agg(distinct r.acc_txt, ?)) as references, count(distinct ptr.reference_id) refcount, pt.indirect_term_qty inferredcount, count(*) over () fullrowcount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedterm on ptr.term_id = associatedterm.id inner join term phenotypeterm on ptr.phenotype_id = phenotypeterm.id left outer join term taxonterm on ptr.taxon_id = taxonterm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedterm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyterm on ia.anatomy_id = anatomyterm.id where ptr.term_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?)) and ptr.term_object_type_id = ? and ptr.phenotype_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and taxonterm.id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = ? and action_degree_type_nm in (...)) group by associatedterm, associatedtermnmsort, phenotype, casrn, ixnid, ixnprosehtml, ixnprose, ixnsort, associatedtermid, phenotypeid, inferredcount order by associatedtermnmsort asc, pt.indirect_term_qty desc limit ?;Times Reported Time consuming queries #9
Day Hour Count Duration Avg duration Mar 25 05 2 14s652ms 7s326ms 10 2 14s746ms 7s373ms [ User: pubeu - Total duration: 14s774ms - Times executed: 2 ]
[ User: qaeu - Total duration: 7s317ms - Times executed: 1 ]
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ZINC')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006915' AND l.type_cd = 'A' AND l.object_type_id = 5))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9606' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 10:33:23 Duration: 7s439ms Database: ctdprd51 User: pubeu Bind query: yes
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ZINC')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006915' AND l.type_cd = 'A' AND l.object_type_id = 5))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9606' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 05:49:08 Duration: 7s334ms Database: ctdprd51 User: pubeu Bind query: yes
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ZINC')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006915' AND l.type_cd = 'A' AND l.object_type_id = 5))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9606' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 05:44:03 Duration: 7s317ms Database: ctdprd51 User: qaeu Bind query: yes
10 4 29s380ms 7s285ms 7s393ms 7s345ms copy edit.ixn (id, ixn_type_id, parent_id, position_seq, root_id, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #10
Day Hour Count Duration Avg duration Mar 25 06 1 7s393ms 7s393ms 10 1 7s371ms 7s371ms 14 1 7s285ms 7s285ms 18 1 7s329ms 7s329ms -
COPY edit.ixn (id, ixn_type_id, parent_id, position_seq, root_id, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:00:30 Duration: 7s393ms
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COPY edit.ixn (id, ixn_type_id, parent_id, position_seq, root_id, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:00:30 Duration: 7s371ms
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COPY edit.ixn (id, ixn_type_id, parent_id, position_seq, root_id, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 18:00:30 Duration: 7s329ms
11 4 25s804ms 6s390ms 6s479ms 6s451ms copy edit.reference_ixn (id, reference_acc_txt, reference_acc_db_id, ixn_id, taxon_acc_txt, taxon_acc_db_id, evidence_cd, source_cd, field_cd, internal_note, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #11
Day Hour Count Duration Avg duration Mar 25 06 1 6s479ms 6s479ms 10 1 6s459ms 6s459ms 14 1 6s390ms 6s390ms 18 1 6s474ms 6s474ms -
COPY edit.reference_ixn (id, reference_acc_txt, reference_acc_db_id, ixn_id, taxon_acc_txt, taxon_acc_db_id, evidence_cd, source_cd, field_cd, internal_note, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:01:14 Duration: 6s479ms
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COPY edit.reference_ixn (id, reference_acc_txt, reference_acc_db_id, ixn_id, taxon_acc_txt, taxon_acc_db_id, evidence_cd, source_cd, field_cd, internal_note, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 18:01:13 Duration: 6s474ms
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COPY edit.reference_ixn (id, reference_acc_txt, reference_acc_db_id, ixn_id, taxon_acc_txt, taxon_acc_db_id, evidence_cd, source_cd, field_cd, internal_note, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:01:14 Duration: 6s459ms
12 4 24s354ms 6s50ms 6s155ms 6s88ms copy edit.ixn_action (ixn_id, action_type_id, action_degree_type_id, position_seq, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #12
Day Hour Count Duration Avg duration Mar 25 06 1 6s155ms 6s155ms 10 1 6s81ms 6s81ms 14 1 6s50ms 6s50ms 18 1 6s67ms 6s67ms -
COPY edit.ixn_action (ixn_id, action_type_id, action_degree_type_id, position_seq, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:00:36 Duration: 6s155ms
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COPY edit.ixn_action (ixn_id, action_type_id, action_degree_type_id, position_seq, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:00:36 Duration: 6s81ms
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COPY edit.ixn_action (ixn_id, action_type_id, action_degree_type_id, position_seq, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 18:00:36 Duration: 6s67ms
13 4 20s560ms 5s76ms 5s207ms 5s140ms select ? "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casrn "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" from ( with sq as ( select distinct c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casrn, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort from term c inner join gene_chem_reference gcr on c.id = gcr.chem_id inner join term g on gcr.gene_id = g.id where (c.id = ?)) select distinct sq.chem_nm, sq.chem_acc_txt, sq.casrn, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm from sq inner join gene_go_annot gga on sq.gene_id = gga.gene_id inner join dag_node gt on gga.go_term_id = gt.object_id inner join dag d on gt.dag_id = d.id where gga.is_not = false and (d.id = ? or d.id = ?) order by sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;Times Reported Time consuming queries #13
Day Hour Count Duration Avg duration Mar 25 05 2 10s277ms 5s138ms 10 2 10s283ms 5s141ms [ User: pubeu - Total duration: 10s332ms - Times executed: 2 ]
[ User: qaeu - Total duration: 10s227ms - Times executed: 2 ]
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SELECT /* BatchChemGODAO */ 'ddt' "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casRN "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" FROM ( WITH sq AS ( SELECT DISTINCT c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casRN, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort FROM term c INNER JOIN gene_chem_reference gcr ON c.id = gcr.chem_id INNER JOIN term g ON gcr.gene_id = g.id WHERE (c.id = 1335246)) SELECT DISTINCT sq.chem_nm, sq.chem_acc_txt, sq.casRN, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm FROM sq INNER JOIN gene_go_annot gga ON sq.gene_id = gga.gene_id INNER JOIN dag_node gt ON gga.go_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE gga.is_not = false AND (d.id = 5 OR d.id = 4) ORDER BY sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;
Date: 2026-03-25 10:32:54 Duration: 5s207ms Database: ctdprd51 User: pubeu Bind query: yes
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SELECT /* BatchChemGODAO */ 'ddt' "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casRN "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" FROM ( WITH sq AS ( SELECT DISTINCT c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casRN, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort FROM term c INNER JOIN gene_chem_reference gcr ON c.id = gcr.chem_id INNER JOIN term g ON gcr.gene_id = g.id WHERE (c.id = 1335246)) SELECT DISTINCT sq.chem_nm, sq.chem_acc_txt, sq.casRN, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm FROM sq INNER JOIN gene_go_annot gga ON sq.gene_id = gga.gene_id INNER JOIN dag_node gt ON gga.go_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE gga.is_not = false AND (d.id = 5 OR d.id = 4) ORDER BY sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;
Date: 2026-03-25 05:43:38 Duration: 5s151ms Database: ctdprd51 User: qaeu Bind query: yes
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SELECT /* BatchChemGODAO */ 'ddt' "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casRN "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" FROM ( WITH sq AS ( SELECT DISTINCT c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casRN, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort FROM term c INNER JOIN gene_chem_reference gcr ON c.id = gcr.chem_id INNER JOIN term g ON gcr.gene_id = g.id WHERE (c.id = 1335246)) SELECT DISTINCT sq.chem_nm, sq.chem_acc_txt, sq.casRN, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm FROM sq INNER JOIN gene_go_annot gga ON sq.gene_id = gga.gene_id INNER JOIN dag_node gt ON gga.go_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE gga.is_not = false AND (d.id = 5 OR d.id = 4) ORDER BY sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;
Date: 2026-03-25 05:48:42 Duration: 5s125ms Database: ctdprd51 User: pubeu Bind query: yes
14 2 12s690ms 6s272ms 6s417ms 6s345ms select p.ancestor_object_id, p.descendant_object_id from dag_path p where p.descendant_object_id in ( select go_term_id from gene_go_annot gga where gga.taxon_id = ( select id from term where acc_txt = ? and object_type_id = ( select id from object_type where cd = ?)) and gga.is_not = ?) and p.ancestor_object_id not in ( select c.id from term c where c.acc_txt in (...) and c.object_type_id = ( select id from object_type where cd = ?));Times Reported Time consuming queries #14
Day Hour Count Duration Avg duration Mar 25 10 2 12s690ms 6s345ms [ User: qaeu - Total duration: 6s417ms - Times executed: 1 ]
[ User: pubeu - Total duration: 6s272ms - Times executed: 1 ]
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select p.ancestor_object_id, p.descendant_object_id from DAG_PATH p where p.descendant_object_id in ( select go_term_id from GENE_GO_ANNOT gga where gga.taxon_id = ( select id from TERM where acc_txt = '9606' and object_type_id = ( select id from OBJECT_TYPE where cd = 'taxon')) AND gga.is_not = 'f') and p.ancestor_object_id NOT in ( SELECT c.id FROM TERM c WHERE c.acc_txt in ('ALL') AND c.object_type_id = ( select id from OBJECT_TYPE where cd = 'go'));
Date: 2026-03-25 10:20:14 Duration: 6s417ms Database: ctdprd51 User: qaeu Bind query: yes
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select p.ancestor_object_id, p.descendant_object_id from DAG_PATH p where p.descendant_object_id in ( select go_term_id from GENE_GO_ANNOT gga where gga.taxon_id = ( select id from TERM where acc_txt = '9606' and object_type_id = ( select id from OBJECT_TYPE where cd = 'taxon')) AND gga.is_not = 'f') and p.ancestor_object_id NOT in ( SELECT c.id FROM TERM c WHERE c.acc_txt in ('ALL') AND c.object_type_id = ( select id from OBJECT_TYPE where cd = 'go'));
Date: 2026-03-25 10:30:32 Duration: 6s272ms Database: ctdprd51 User: pubeu Bind query: yes
15 2 10s401ms 5s187ms 5s214ms 5s200ms select d.abbr dagabbr, d.nm dagnm, gt.level_min_no daglevelmin, gt.nm gonm, gt.nm_html gonmhtml, gt.acc_txt goacc, gt.object_id goid, te.corrected_p_val pvalcorrected, te.raw_p_val pvalraw, te.target_match_qty targetmatchqty, te.target_total_qty targettotalqty, te.background_match_qty backgroundmatchqty, te.background_total_qty backgroundtotalqty, count(*) over () fullrowcount from term_enrichment te inner join dag_node gt on te.enriched_term_id = gt.object_id inner join dag d on gt.dag_id = d.id where te.term_id = ? and te.enriched_object_type_id = ? order by te.corrected_p_val, d.abbr, gt.nm_sort limit ?;Times Reported Time consuming queries #15
Day Hour Count Duration Avg duration Mar 25 03 1 5s187ms 5s187ms 04 1 5s214ms 5s214ms [ User: pubeu - Total duration: 10s401ms - Times executed: 2 ]
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SELECT /* ChemGODAO */ d.abbr dagAbbr, d.nm dagNm, gt.level_min_no dagLevelMin, gt.nm gonm, gt.nm_html gonmhtml, gt.acc_txt goacc, gt.object_id goid, te.corrected_p_val pValCorrected, te.raw_p_val pValRaw, te.target_match_qty targetmatchqty, te.target_total_qty targettotalqty, te.background_match_qty backgroundmatchqty, te.background_total_qty backgroundtotalqty, COUNT(*) OVER () fullRowCount FROM term_enrichment te INNER JOIN dag_node gt ON te.enriched_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE te.term_id = '1396478' AND te.enriched_object_type_id = 5 ORDER BY te.corrected_p_val, d.abbr, gt.nm_sort LIMIT 50;
Date: 2026-03-25 04:58:55 Duration: 5s214ms Database: ctdprd51 User: pubeu Bind query: yes
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SELECT /* ChemGODAO */ d.abbr dagAbbr, d.nm dagNm, gt.level_min_no dagLevelMin, gt.nm gonm, gt.nm_html gonmhtml, gt.acc_txt goacc, gt.object_id goid, te.corrected_p_val pValCorrected, te.raw_p_val pValRaw, te.target_match_qty targetmatchqty, te.target_total_qty targettotalqty, te.background_match_qty backgroundmatchqty, te.background_total_qty backgroundtotalqty, COUNT(*) OVER () fullRowCount FROM term_enrichment te INNER JOIN dag_node gt ON te.enriched_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE te.term_id = '1315119' AND te.enriched_object_type_id = 5 ORDER BY te.corrected_p_val, d.abbr, gt.nm_sort LIMIT 50;
Date: 2026-03-25 03:23:18 Duration: 5s187ms Database: ctdprd51 User: pubeu Bind query: yes
16 1 9m11s 9m11s 9m11s 9m11s select maint_query_logs_archive ();Times Reported Time consuming queries #16
Day Hour Count Duration Avg duration Mar 25 00 1 9m11s 9m11s [ User: pubc - Total duration: 9m11s - Times executed: 1 ]
[ Application: psql - Total duration: 9m11s - Times executed: 1 ]
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/* * Run daily to prune LOG_QUERY, archive old queries to LOG_QUERY_ARCHIVE * and vacuum/analyze the tables. * * $Id: archive_query_logs.sql 10832 2012-03-19 15:27:11Z mcr $ */ SELECT maint_query_logs_archive ();
Date: 2026-03-25 00:09:12 Duration: 9m11s Database: ctdprd51 User: pubc Application: psql
17 1 13s497ms 13s497ms 13s497ms 13s497ms select ii.cd, count(ii.id) cnt from ( select ot.cd, tl.term_id id from object_type ot inner join term_label tl on ot.id = tl.object_type_id where tl.nm_fts @@ to_tsquery(?, ?) union select ?, r.id from reference r where r.title_abstract_fts @@ to_tsquery(?, ?) or r.id in ( select rpr.reference_id from reference_party_role rpr inner join reference_party rp on rpr.reference_party_id = rp.id where (substr(get_reference_party_nm_sort (rp.required_nm), ?, ?) like ? or substr(get_reference_party_nm_sort (rp.required_nm), ?, ?) like ? or substr(get_reference_party_nm_sort (rp.required_nm), ?, ?) like ?)) union select ot.cd, l.object_id from db_link l inner join object_type ot on l.object_type_id = ot.id where l.type_cd = ? and (upper(l.acc_txt) like ? or upper(l.acc_txt) like ? or upper(l.acc_txt) like ?)) ii group by ii.cd;Times Reported Time consuming queries #17
Day Hour Count Duration Avg duration Mar 25 10 1 13s497ms 13s497ms [ User: pubeu - Total duration: 13s497ms - Times executed: 1 ]
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SELECT /* BasicCountsDAO gen */ ii.cd, COUNT(ii.id) cnt FROM ( SELECT ot.cd, tl.term_id id FROM object_type ot INNER JOIN term_label tl ON ot.id = tl.object_type_id WHERE tl.nm_fts @@ to_tsquery('common.english_nostops', 'METAL & ION_ & TRANSPORT') UNION SELECT 'reference', r.id FROM reference r WHERE r.title_abstract_fts @@ to_tsquery('pg_catalog.english', 'METAL & ION_ & TRANSPORT') OR r.id IN ( SELECT rpr.reference_id FROM reference_party_role rpr INNER JOIN reference_party rp ON rpr.reference_party_id = rp.id WHERE (SUBSTR(get_reference_party_nm_sort (rp.required_nm), 1, 128) LIKE 'METAL' OR SUBSTR(get_reference_party_nm_sort (rp.required_nm), 1, 128) LIKE 'ION_' OR SUBSTR(get_reference_party_nm_sort (rp.required_nm), 1, 128) LIKE 'TRANSPORT')) UNION SELECT ot.cd, l.object_id FROM db_link l INNER JOIN object_type ot on l.object_type_id = ot.id WHERE l.type_cd = 'A' AND (upper(l.acc_txt) LIKE 'METAL' OR upper(l.acc_txt) LIKE 'ION_' OR upper(l.acc_txt) LIKE 'TRANSPORT')) ii GROUP BY ii.cd;
Date: 2026-03-25 10:09:29 Duration: 13s497ms Database: ctdprd51 User: pubeu Bind query: yes
18 1 8s527ms 8s527ms 8s527ms 8s527ms select distinct associatedterm.nm || ? || o.cd || ? || associatedterm.nm_html || ? || associatedterm.acc_txt || ? || associatedterm.acc_db_cd as associatedterm, associatedterm.id associatedtermid, ptr.ixn_id ixnid, associatedterm.object_type_id || ? || associatedterm.nm_sort associatedtermnmsort, coalesce(associatedterm.secondary_nm, ?) casrn, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotype, phenotypeterm.id phenotypeid, ( select string_agg(distinct taxonterm.nm || ? || ? || ? || taxonterm.nm_html || ? || taxonterm.acc_txt || ? || taxonterm.acc_db_cd || ? || coalesce(taxonterm.secondary_nm, ?), ?)) as taxonterms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || ia.level_seq || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, count(distinct taxonterm.nm) taxoncount, i.ixn_prose_html ixnprosehtml, i.ixn_prose_txt ixnprose, i.sort_txt ixnsort, ( select string_agg(distinct r.acc_txt, ?)) as references, count(distinct ptr.reference_id) refcount, pt.indirect_term_qty inferredcount, count(*) over () fullrowcount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedterm on ptr.term_id = associatedterm.id inner join term phenotypeterm on ptr.phenotype_id = phenotypeterm.id left outer join term taxonterm on ptr.taxon_id = taxonterm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedterm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyterm on ia.anatomy_id = anatomyterm.id where ptr.term_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?)) and i.id in ( select ixn_id from ixn_axn where action_type_nm = ? and action_degree_type_nm in (...)) group by associatedterm, associatedtermnmsort, phenotype, casrn, ixnid, ixnprosehtml, ixnprose, ixnsort, associatedtermid, phenotypeid, inferredcount order by associatedtermnmsort asc, pt.indirect_term_qty desc limit ?;Times Reported Time consuming queries #18
Day Hour Count Duration Avg duration Mar 25 01 1 8s527ms 8s527ms [ User: pubeu - Total duration: 8s527ms - Times executed: 1 ]
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'BISPHENOL A')) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases', 'decreases', 'affects')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 01:46:47 Duration: 8s527ms Database: ctdprd51 User: pubeu Bind query: yes
19 1 6s641ms 6s641ms 6s641ms 6s641ms vacuum analyze log_query_archive;Times Reported Time consuming queries #19
Day Hour Count Duration Avg duration Mar 25 00 1 6s641ms 6s641ms -
VACUUM ANALYZE log_query_archive;
Date: 2026-03-25 00:09:19 Duration: 6s641ms
Normalized slowest queries (N)
Rank Min duration Max duration Avg duration Times executed Total duration Query 1 9m11s 9m11s 9m11s 1 9m11s select maint_query_logs_archive ();Times Reported Time consuming queries #1
Day Hour Count Duration Avg duration Mar 25 00 1 9m11s 9m11s [ User: pubc - Total duration: 9m11s - Times executed: 1 ]
[ Application: psql - Total duration: 9m11s - Times executed: 1 ]
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/* * Run daily to prune LOG_QUERY, archive old queries to LOG_QUERY_ARCHIVE * and vacuum/analyze the tables. * * $Id: archive_query_logs.sql 10832 2012-03-19 15:27:11Z mcr $ */ SELECT maint_query_logs_archive ();
Date: 2026-03-25 00:09:12 Duration: 9m11s Database: ctdprd51 User: pubc Application: psql
2 3m36s 4m20s 3m54s 16 1h2m34s select phenotypeterm.nm gonm, phenotypeterm.nm_html gonmhtml, phenotypeterm.acc_txt goacc, phenotypeterm.id goid, diseaseterm.nm diseasenm, diseaseterm.acc_txt diseaseacc, diseaseterm.acc_db_cd diseaseaccdbcd, diseaseterm.id diseaseid, via_gene_qty genenetworkcount, via_chem_qty chemnetworkcount, indirect_reference_qty referencecount, count(*) over () fullrowcount from phenotype_term pt inner join term phenotypeterm on pt.phenotype_id = phenotypeterm.id inner join term diseaseterm on pt.term_id = diseaseterm.id where phenotypeterm.id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id = ?) and diseaseterm.object_type_id = ? order by chemnetworkcount desc, genenetworkcount desc limit ?;Times Reported Time consuming queries #2
Day Hour Count Duration Avg duration Mar 25 22 16 1h2m34s 3m54s [ User: pubeu - Total duration: 55m7s - Times executed: 14 ]
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SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;
Date: 2026-03-25 22:10:18 Duration: 4m20s Database: ctdprd51 User: pubeu Bind query: yes
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SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;
Date: 2026-03-25 22:10:25 Duration: 4m19s Database: ctdprd51 User: pubeu Bind query: yes
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SELECT /* GoDiseasesDAO */ phenotypeTerm.nm goNm, phenotypeTerm.nm_html goNmHTML, phenotypeTerm.acc_txt goAcc, phenotypeTerm.id goId, diseaseTerm.nm diseaseNm, diseaseTerm.acc_txt diseaseAcc, diseaseTerm.acc_db_cd diseaseAccDBCd, diseaseTerm.id diseaseId, via_gene_qty geneNetworkCount, via_chem_qty chemNetworkCount, indirect_reference_qty referenceCount, COUNT(*) OVER () fullRowCount FROM phenotype_term pt inner join term phenotypeTerm on pt.phenotype_id = phenotypeTerm.id inner join term diseaseTerm on pt.term_id = diseaseTerm.id WHERE phenotypeTerm.id IN ( select distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id = '1266601') and diseaseTerm.object_type_id = 3 ORDER BY chemNetworkCount desc, geneNetworkCount desc LIMIT 50;
Date: 2026-03-25 22:10:33 Duration: 4m8s Database: ctdprd51 User: pubeu Bind query: yes
3 1m51s 1m52s 1m51s 4 7m26s copy pubc.log_query_archive (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, gene_set_txt, molecule_type_txt, volume_txt, first_page_txt, journal_query_type, journal_txt, is_review, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) to stdout;Times Reported Time consuming queries #3
Day Hour Count Duration Avg duration Mar 25 06 1 1m51s 1m51s 10 1 1m51s 1m51s 14 1 1m52s 1m52s 18 1 1m51s 1m51s [ User: postgres - Total duration: 7m26s - Times executed: 4 ]
[ Application: pg_dump - Total duration: 7m26s - Times executed: 4 ]
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COPY pubc.log_query_archive (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, gene_set_txt, molecule_type_txt, volume_txt, first_page_txt, journal_query_type, journal_txt, is_review, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 14:06:53 Duration: 1m52s Database: ctdprd51 User: postgres Application: pg_dump
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COPY pubc.log_query_archive (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, gene_set_txt, molecule_type_txt, volume_txt, first_page_txt, journal_query_type, journal_txt, is_review, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 06:06:53 Duration: 1m51s Database: ctdprd51 User: postgres Application: pg_dump
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COPY pubc.log_query_archive (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, gene_set_txt, molecule_type_txt, volume_txt, first_page_txt, journal_query_type, journal_txt, is_review, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 18:06:53 Duration: 1m51s Database: ctdprd51 User: postgres Application: pg_dump
4 23s923ms 24s73ms 23s968ms 4 1m35s copy pubc.log_query_bots (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) to stdout;Times Reported Time consuming queries #4
Day Hour Count Duration Avg duration Mar 25 06 1 23s923ms 23s923ms 10 1 23s927ms 23s927ms 14 1 24s73ms 24s73ms 18 1 23s949ms 23s949ms -
COPY pubc.log_query_bots (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 14:07:17 Duration: 24s73ms
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COPY pubc.log_query_bots (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 18:07:17 Duration: 23s949ms
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COPY pubc.log_query_bots (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status) TO stdout;
Date: 2026-03-25 10:07:17 Duration: 23s927ms
5 18s785ms 19s46ms 18s874ms 4 1m15s copy edit.db_link (object_id, object_type_id, acc_txt, db_id, type_cd, is_primary, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #5
Day Hour Count Duration Avg duration Mar 25 06 1 19s46ms 19s46ms 10 1 18s874ms 18s874ms 14 1 18s789ms 18s789ms 18 1 18s785ms 18s785ms [ User: postgres - Total duration: 1m15s - Times executed: 4 ]
[ Application: pg_dump - Total duration: 1m15s - Times executed: 4 ]
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COPY edit.db_link (object_id, object_type_id, acc_txt, db_id, type_cd, is_primary, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:00:20 Duration: 19s46ms Database: ctdprd51 User: postgres Application: pg_dump
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COPY edit.db_link (object_id, object_type_id, acc_txt, db_id, type_cd, is_primary, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:00:20 Duration: 18s874ms Database: ctdprd51 User: postgres Application: pg_dump
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COPY edit.db_link (object_id, object_type_id, acc_txt, db_id, type_cd, is_primary, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 14:00:21 Duration: 18s789ms Database: ctdprd51 User: postgres Application: pg_dump
6 15s432ms 15s554ms 15s490ms 4 1m1s copy pubc.log_query_bots_original (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status, user_agent_pattern) to stdout;Times Reported Time consuming queries #6
Day Hour Count Duration Avg duration Mar 25 06 1 15s432ms 15s432ms 10 1 15s554ms 15s554ms 14 1 15s492ms 15s492ms 18 1 15s481ms 15s481ms -
COPY pubc.log_query_bots_original (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status, user_agent_pattern) TO stdout;
Date: 2026-03-25 10:07:32 Duration: 15s554ms
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COPY pubc.log_query_bots_original (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status, user_agent_pattern) TO stdout;
Date: 2026-03-25 14:07:33 Duration: 15s492ms
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COPY pubc.log_query_bots_original (id, type_cd, query_tm, submission_qty, session_id, remote_addr, http_user_agent, server_nm, node_nm, results_qty, execution_ms, basic_query_type, basic_query_txt, gene_query_type, gene_txt, gene_form_type_txt, taxon_query_type, taxon_txt, chem_query_type, chem_txt, party_query_type, party_nm_txt, acc_txt, go_query_type, go_txt, disease_query_type, disease_txt, action_type_txt, action_degree_type_txt, from_yr, through_yr, title_abstract_txt, has_marray, pathway_query_type, pathway_txt, dag_txt, results_format_txt, batch_input_type_txt, gd_assn_type, p_val, p_val_type, input_term_qty, review_status, user_agent_pattern) TO stdout;
Date: 2026-03-25 18:07:32 Duration: 15s481ms
7 14s564ms 14s867ms 14s695ms 4 58s781ms copy edit.ixn_actor (ixn_id, position_seq, object_type_id, acc_txt, acc_db_id, object_nm, actor_form_type_id, qual_actor_form_type_id, seq_acc_txt, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #7
Day Hour Count Duration Avg duration Mar 25 06 1 14s706ms 14s706ms 10 1 14s867ms 14s867ms 14 1 14s564ms 14s564ms 18 1 14s643ms 14s643ms -
COPY edit.ixn_actor (ixn_id, position_seq, object_type_id, acc_txt, acc_db_id, object_nm, actor_form_type_id, qual_actor_form_type_id, seq_acc_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:00:51 Duration: 14s867ms
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COPY edit.ixn_actor (ixn_id, position_seq, object_type_id, acc_txt, acc_db_id, object_nm, actor_form_type_id, qual_actor_form_type_id, seq_acc_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:00:51 Duration: 14s706ms
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COPY edit.ixn_actor (ixn_id, position_seq, object_type_id, acc_txt, acc_db_id, object_nm, actor_form_type_id, qual_actor_form_type_id, seq_acc_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 18:00:51 Duration: 14s643ms
8 14s375ms 14s483ms 14s438ms 4 57s753ms copy edit.reference (id, title, journal_nm, issue, pages_txt, page_position_seq, volume, pub_dt_format_mask, pub_start_dt, pub_end_dt, pub_start_season_nm, pub_end_season_nm, is_review, is_author_list_complete, affiliation_txt, abstract_txt, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #8
Day Hour Count Duration Avg duration Mar 25 06 1 14s426ms 14s426ms 10 1 14s483ms 14s483ms 14 1 14s375ms 14s375ms 18 1 14s468ms 14s468ms -
COPY edit.reference (id, title, journal_nm, issue, pages_txt, page_position_seq, volume, pub_dt_format_mask, pub_start_dt, pub_end_dt, pub_start_season_nm, pub_end_season_nm, is_review, is_author_list_complete, affiliation_txt, abstract_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:01:06 Duration: 14s483ms
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COPY edit.reference (id, title, journal_nm, issue, pages_txt, page_position_seq, volume, pub_dt_format_mask, pub_start_dt, pub_end_dt, pub_start_season_nm, pub_end_season_nm, is_review, is_author_list_complete, affiliation_txt, abstract_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 18:01:05 Duration: 14s468ms
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COPY edit.reference (id, title, journal_nm, issue, pages_txt, page_position_seq, volume, pub_dt_format_mask, pub_start_dt, pub_end_dt, pub_start_season_nm, pub_end_season_nm, is_review, is_author_list_complete, affiliation_txt, abstract_txt, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:01:06 Duration: 14s426ms
9 13s497ms 13s497ms 13s497ms 1 13s497ms select ii.cd, count(ii.id) cnt from ( select ot.cd, tl.term_id id from object_type ot inner join term_label tl on ot.id = tl.object_type_id where tl.nm_fts @@ to_tsquery(?, ?) union select ?, r.id from reference r where r.title_abstract_fts @@ to_tsquery(?, ?) or r.id in ( select rpr.reference_id from reference_party_role rpr inner join reference_party rp on rpr.reference_party_id = rp.id where (substr(get_reference_party_nm_sort (rp.required_nm), ?, ?) like ? or substr(get_reference_party_nm_sort (rp.required_nm), ?, ?) like ? or substr(get_reference_party_nm_sort (rp.required_nm), ?, ?) like ?)) union select ot.cd, l.object_id from db_link l inner join object_type ot on l.object_type_id = ot.id where l.type_cd = ? and (upper(l.acc_txt) like ? or upper(l.acc_txt) like ? or upper(l.acc_txt) like ?)) ii group by ii.cd;Times Reported Time consuming queries #9
Day Hour Count Duration Avg duration Mar 25 10 1 13s497ms 13s497ms [ User: pubeu - Total duration: 13s497ms - Times executed: 1 ]
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SELECT /* BasicCountsDAO gen */ ii.cd, COUNT(ii.id) cnt FROM ( SELECT ot.cd, tl.term_id id FROM object_type ot INNER JOIN term_label tl ON ot.id = tl.object_type_id WHERE tl.nm_fts @@ to_tsquery('common.english_nostops', 'METAL & ION_ & TRANSPORT') UNION SELECT 'reference', r.id FROM reference r WHERE r.title_abstract_fts @@ to_tsquery('pg_catalog.english', 'METAL & ION_ & TRANSPORT') OR r.id IN ( SELECT rpr.reference_id FROM reference_party_role rpr INNER JOIN reference_party rp ON rpr.reference_party_id = rp.id WHERE (SUBSTR(get_reference_party_nm_sort (rp.required_nm), 1, 128) LIKE 'METAL' OR SUBSTR(get_reference_party_nm_sort (rp.required_nm), 1, 128) LIKE 'ION_' OR SUBSTR(get_reference_party_nm_sort (rp.required_nm), 1, 128) LIKE 'TRANSPORT')) UNION SELECT ot.cd, l.object_id FROM db_link l INNER JOIN object_type ot on l.object_type_id = ot.id WHERE l.type_cd = 'A' AND (upper(l.acc_txt) LIKE 'METAL' OR upper(l.acc_txt) LIKE 'ION_' OR upper(l.acc_txt) LIKE 'TRANSPORT')) ii GROUP BY ii.cd;
Date: 2026-03-25 10:09:29 Duration: 13s497ms Database: ctdprd51 User: pubeu Bind query: yes
10 8s527ms 8s527ms 8s527ms 1 8s527ms select distinct associatedterm.nm || ? || o.cd || ? || associatedterm.nm_html || ? || associatedterm.acc_txt || ? || associatedterm.acc_db_cd as associatedterm, associatedterm.id associatedtermid, ptr.ixn_id ixnid, associatedterm.object_type_id || ? || associatedterm.nm_sort associatedtermnmsort, coalesce(associatedterm.secondary_nm, ?) casrn, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotype, phenotypeterm.id phenotypeid, ( select string_agg(distinct taxonterm.nm || ? || ? || ? || taxonterm.nm_html || ? || taxonterm.acc_txt || ? || taxonterm.acc_db_cd || ? || coalesce(taxonterm.secondary_nm, ?), ?)) as taxonterms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || ia.level_seq || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, count(distinct taxonterm.nm) taxoncount, i.ixn_prose_html ixnprosehtml, i.ixn_prose_txt ixnprose, i.sort_txt ixnsort, ( select string_agg(distinct r.acc_txt, ?)) as references, count(distinct ptr.reference_id) refcount, pt.indirect_term_qty inferredcount, count(*) over () fullrowcount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedterm on ptr.term_id = associatedterm.id inner join term phenotypeterm on ptr.phenotype_id = phenotypeterm.id left outer join term taxonterm on ptr.taxon_id = taxonterm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedterm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyterm on ia.anatomy_id = anatomyterm.id where ptr.term_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?)) and i.id in ( select ixn_id from ixn_axn where action_type_nm = ? and action_degree_type_nm in (...)) group by associatedterm, associatedtermnmsort, phenotype, casrn, ixnid, ixnprosehtml, ixnprose, ixnsort, associatedtermid, phenotypeid, inferredcount order by associatedtermnmsort asc, pt.indirect_term_qty desc limit ?;Times Reported Time consuming queries #10
Day Hour Count Duration Avg duration Mar 25 01 1 8s527ms 8s527ms [ User: pubeu - Total duration: 8s527ms - Times executed: 1 ]
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'BISPHENOL A')) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases', 'decreases', 'affects')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 01:46:47 Duration: 8s527ms Database: ctdprd51 User: pubeu Bind query: yes
11 7s276ms 7s530ms 7s409ms 4 29s639ms select distinct associatedterm.nm || ? || o.cd || ? || associatedterm.nm_html || ? || associatedterm.acc_txt || ? || associatedterm.acc_db_cd as associatedterm, associatedterm.id associatedtermid, ptr.ixn_id ixnid, associatedterm.object_type_id || ? || associatedterm.nm_sort associatedtermnmsort, coalesce(associatedterm.secondary_nm, ?) casrn, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotype, phenotypeterm.id phenotypeid, ( select string_agg(distinct taxonterm.nm || ? || ? || ? || taxonterm.nm_html || ? || taxonterm.acc_txt || ? || taxonterm.acc_db_cd || ? || coalesce(taxonterm.secondary_nm, ?), ?)) as taxonterms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || ia.level_seq || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, count(distinct taxonterm.nm) taxoncount, i.ixn_prose_html ixnprosehtml, i.ixn_prose_txt ixnprose, i.sort_txt ixnsort, ( select string_agg(distinct r.acc_txt, ?)) as references, count(distinct ptr.reference_id) refcount, pt.indirect_term_qty inferredcount, count(*) over () fullrowcount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedterm on ptr.term_id = associatedterm.id inner join term phenotypeterm on ptr.phenotype_id = phenotypeterm.id left outer join term taxonterm on ptr.taxon_id = taxonterm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedterm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyterm on ia.anatomy_id = anatomyterm.id where ptr.term_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?)) and ptr.term_object_type_id = ? and ptr.phenotype_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?))) and taxonterm.id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = ? and action_degree_type_nm in (...)) group by associatedterm, associatedtermnmsort, phenotype, casrn, ixnid, ixnprosehtml, ixnprose, ixnsort, associatedtermid, phenotypeid, inferredcount order by associatedtermnmsort asc, pt.indirect_term_qty desc limit ?;Times Reported Time consuming queries #11
Day Hour Count Duration Avg duration Mar 25 05 2 14s664ms 7s332ms 10 2 14s974ms 7s487ms [ User: pubeu - Total duration: 14s721ms - Times executed: 2 ]
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ACETYLCYSTEINE')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006979' AND l.type_cd = 'A' AND l.object_type_id = 5))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 10 and upper(baseTerm.nm) LIKE 'CARDIOVASCULAR SYSTEM'))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9605' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 10:28:33 Duration: 7s530ms Bind query: yes
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ACETYLCYSTEINE')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006979' AND l.type_cd = 'A' AND l.object_type_id = 5))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 10 and upper(baseTerm.nm) LIKE 'CARDIOVASCULAR SYSTEM'))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9605' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 10:33:30 Duration: 7s444ms Database: ctdprd51 User: pubeu Bind query: yes
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ACETYLCYSTEINE')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006979' AND l.type_cd = 'A' AND l.object_type_id = 5))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 10 and upper(baseTerm.nm) LIKE 'CARDIOVASCULAR SYSTEM'))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9605' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 05:44:11 Duration: 7s387ms Bind query: yes
12 7s306ms 7s439ms 7s349ms 4 29s398ms select distinct associatedterm.nm || ? || o.cd || ? || associatedterm.nm_html || ? || associatedterm.acc_txt || ? || associatedterm.acc_db_cd as associatedterm, associatedterm.id associatedtermid, ptr.ixn_id ixnid, associatedterm.object_type_id || ? || associatedterm.nm_sort associatedtermnmsort, coalesce(associatedterm.secondary_nm, ?) casrn, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotype, phenotypeterm.id phenotypeid, ( select string_agg(distinct taxonterm.nm || ? || ? || ? || taxonterm.nm_html || ? || taxonterm.acc_txt || ? || taxonterm.acc_db_cd || ? || coalesce(taxonterm.secondary_nm, ?), ?)) as taxonterms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || ia.level_seq || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, count(distinct taxonterm.nm) taxoncount, i.ixn_prose_html ixnprosehtml, i.ixn_prose_txt ixnprose, i.sort_txt ixnsort, ( select string_agg(distinct r.acc_txt, ?)) as references, count(distinct ptr.reference_id) refcount, pt.indirect_term_qty inferredcount, count(*) over () fullrowcount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedterm on ptr.term_id = associatedterm.id inner join term phenotypeterm on ptr.phenotype_id = phenotypeterm.id left outer join term taxonterm on ptr.taxon_id = taxonterm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedterm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyterm on ia.anatomy_id = anatomyterm.id where ptr.term_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?)) and ptr.term_object_type_id = ? and ptr.phenotype_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and taxonterm.id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = ? and action_degree_type_nm in (...)) group by associatedterm, associatedtermnmsort, phenotype, casrn, ixnid, ixnprosehtml, ixnprose, ixnsort, associatedtermid, phenotypeid, inferredcount order by associatedtermnmsort asc, pt.indirect_term_qty desc limit ?;Times Reported Time consuming queries #12
Day Hour Count Duration Avg duration Mar 25 05 2 14s652ms 7s326ms 10 2 14s746ms 7s373ms [ User: pubeu - Total duration: 14s774ms - Times executed: 2 ]
[ User: qaeu - Total duration: 7s317ms - Times executed: 1 ]
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ZINC')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006915' AND l.type_cd = 'A' AND l.object_type_id = 5))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9606' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 10:33:23 Duration: 7s439ms Database: ctdprd51 User: pubeu Bind query: yes
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ZINC')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006915' AND l.type_cd = 'A' AND l.object_type_id = 5))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9606' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 05:49:08 Duration: 7s334ms Database: ctdprd51 User: pubeu Bind query: yes
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select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ZINC')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006915' AND l.type_cd = 'A' AND l.object_type_id = 5))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9606' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort asc, pt.indirect_term_qty desc LIMIT 50;
Date: 2026-03-25 05:44:03 Duration: 7s317ms Database: ctdprd51 User: qaeu Bind query: yes
13 7s285ms 7s393ms 7s345ms 4 29s380ms copy edit.ixn (id, ixn_type_id, parent_id, position_seq, root_id, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #13
Day Hour Count Duration Avg duration Mar 25 06 1 7s393ms 7s393ms 10 1 7s371ms 7s371ms 14 1 7s285ms 7s285ms 18 1 7s329ms 7s329ms -
COPY edit.ixn (id, ixn_type_id, parent_id, position_seq, root_id, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:00:30 Duration: 7s393ms
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COPY edit.ixn (id, ixn_type_id, parent_id, position_seq, root_id, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:00:30 Duration: 7s371ms
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COPY edit.ixn (id, ixn_type_id, parent_id, position_seq, root_id, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 18:00:30 Duration: 7s329ms
14 6s641ms 6s641ms 6s641ms 1 6s641ms vacuum analyze log_query_archive;Times Reported Time consuming queries #14
Day Hour Count Duration Avg duration Mar 25 00 1 6s641ms 6s641ms -
VACUUM ANALYZE log_query_archive;
Date: 2026-03-25 00:09:19 Duration: 6s641ms
15 6s390ms 6s479ms 6s451ms 4 25s804ms copy edit.reference_ixn (id, reference_acc_txt, reference_acc_db_id, ixn_id, taxon_acc_txt, taxon_acc_db_id, evidence_cd, source_cd, field_cd, internal_note, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #15
Day Hour Count Duration Avg duration Mar 25 06 1 6s479ms 6s479ms 10 1 6s459ms 6s459ms 14 1 6s390ms 6s390ms 18 1 6s474ms 6s474ms -
COPY edit.reference_ixn (id, reference_acc_txt, reference_acc_db_id, ixn_id, taxon_acc_txt, taxon_acc_db_id, evidence_cd, source_cd, field_cd, internal_note, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:01:14 Duration: 6s479ms
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COPY edit.reference_ixn (id, reference_acc_txt, reference_acc_db_id, ixn_id, taxon_acc_txt, taxon_acc_db_id, evidence_cd, source_cd, field_cd, internal_note, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 18:01:13 Duration: 6s474ms
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COPY edit.reference_ixn (id, reference_acc_txt, reference_acc_db_id, ixn_id, taxon_acc_txt, taxon_acc_db_id, evidence_cd, source_cd, field_cd, internal_note, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:01:14 Duration: 6s459ms
16 6s272ms 6s417ms 6s345ms 2 12s690ms select p.ancestor_object_id, p.descendant_object_id from dag_path p where p.descendant_object_id in ( select go_term_id from gene_go_annot gga where gga.taxon_id = ( select id from term where acc_txt = ? and object_type_id = ( select id from object_type where cd = ?)) and gga.is_not = ?) and p.ancestor_object_id not in ( select c.id from term c where c.acc_txt in (...) and c.object_type_id = ( select id from object_type where cd = ?));Times Reported Time consuming queries #16
Day Hour Count Duration Avg duration Mar 25 10 2 12s690ms 6s345ms [ User: qaeu - Total duration: 6s417ms - Times executed: 1 ]
[ User: pubeu - Total duration: 6s272ms - Times executed: 1 ]
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select p.ancestor_object_id, p.descendant_object_id from DAG_PATH p where p.descendant_object_id in ( select go_term_id from GENE_GO_ANNOT gga where gga.taxon_id = ( select id from TERM where acc_txt = '9606' and object_type_id = ( select id from OBJECT_TYPE where cd = 'taxon')) AND gga.is_not = 'f') and p.ancestor_object_id NOT in ( SELECT c.id FROM TERM c WHERE c.acc_txt in ('ALL') AND c.object_type_id = ( select id from OBJECT_TYPE where cd = 'go'));
Date: 2026-03-25 10:20:14 Duration: 6s417ms Database: ctdprd51 User: qaeu Bind query: yes
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select p.ancestor_object_id, p.descendant_object_id from DAG_PATH p where p.descendant_object_id in ( select go_term_id from GENE_GO_ANNOT gga where gga.taxon_id = ( select id from TERM where acc_txt = '9606' and object_type_id = ( select id from OBJECT_TYPE where cd = 'taxon')) AND gga.is_not = 'f') and p.ancestor_object_id NOT in ( SELECT c.id FROM TERM c WHERE c.acc_txt in ('ALL') AND c.object_type_id = ( select id from OBJECT_TYPE where cd = 'go'));
Date: 2026-03-25 10:30:32 Duration: 6s272ms Database: ctdprd51 User: pubeu Bind query: yes
17 6s50ms 6s155ms 6s88ms 4 24s354ms copy edit.ixn_action (ixn_id, action_type_id, action_degree_type_id, position_seq, create_by, create_tm, mod_by, mod_tm) to stdout;Times Reported Time consuming queries #17
Day Hour Count Duration Avg duration Mar 25 06 1 6s155ms 6s155ms 10 1 6s81ms 6s81ms 14 1 6s50ms 6s50ms 18 1 6s67ms 6s67ms -
COPY edit.ixn_action (ixn_id, action_type_id, action_degree_type_id, position_seq, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 06:00:36 Duration: 6s155ms
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COPY edit.ixn_action (ixn_id, action_type_id, action_degree_type_id, position_seq, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 10:00:36 Duration: 6s81ms
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COPY edit.ixn_action (ixn_id, action_type_id, action_degree_type_id, position_seq, create_by, create_tm, mod_by, mod_tm) TO stdout;
Date: 2026-03-25 18:00:36 Duration: 6s67ms
18 5s187ms 5s214ms 5s200ms 2 10s401ms select d.abbr dagabbr, d.nm dagnm, gt.level_min_no daglevelmin, gt.nm gonm, gt.nm_html gonmhtml, gt.acc_txt goacc, gt.object_id goid, te.corrected_p_val pvalcorrected, te.raw_p_val pvalraw, te.target_match_qty targetmatchqty, te.target_total_qty targettotalqty, te.background_match_qty backgroundmatchqty, te.background_total_qty backgroundtotalqty, count(*) over () fullrowcount from term_enrichment te inner join dag_node gt on te.enriched_term_id = gt.object_id inner join dag d on gt.dag_id = d.id where te.term_id = ? and te.enriched_object_type_id = ? order by te.corrected_p_val, d.abbr, gt.nm_sort limit ?;Times Reported Time consuming queries #18
Day Hour Count Duration Avg duration Mar 25 03 1 5s187ms 5s187ms 04 1 5s214ms 5s214ms [ User: pubeu - Total duration: 10s401ms - Times executed: 2 ]
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SELECT /* ChemGODAO */ d.abbr dagAbbr, d.nm dagNm, gt.level_min_no dagLevelMin, gt.nm gonm, gt.nm_html gonmhtml, gt.acc_txt goacc, gt.object_id goid, te.corrected_p_val pValCorrected, te.raw_p_val pValRaw, te.target_match_qty targetmatchqty, te.target_total_qty targettotalqty, te.background_match_qty backgroundmatchqty, te.background_total_qty backgroundtotalqty, COUNT(*) OVER () fullRowCount FROM term_enrichment te INNER JOIN dag_node gt ON te.enriched_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE te.term_id = '1396478' AND te.enriched_object_type_id = 5 ORDER BY te.corrected_p_val, d.abbr, gt.nm_sort LIMIT 50;
Date: 2026-03-25 04:58:55 Duration: 5s214ms Database: ctdprd51 User: pubeu Bind query: yes
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SELECT /* ChemGODAO */ d.abbr dagAbbr, d.nm dagNm, gt.level_min_no dagLevelMin, gt.nm gonm, gt.nm_html gonmhtml, gt.acc_txt goacc, gt.object_id goid, te.corrected_p_val pValCorrected, te.raw_p_val pValRaw, te.target_match_qty targetmatchqty, te.target_total_qty targettotalqty, te.background_match_qty backgroundmatchqty, te.background_total_qty backgroundtotalqty, COUNT(*) OVER () fullRowCount FROM term_enrichment te INNER JOIN dag_node gt ON te.enriched_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE te.term_id = '1315119' AND te.enriched_object_type_id = 5 ORDER BY te.corrected_p_val, d.abbr, gt.nm_sort LIMIT 50;
Date: 2026-03-25 03:23:18 Duration: 5s187ms Database: ctdprd51 User: pubeu Bind query: yes
19 5s76ms 5s207ms 5s140ms 4 20s560ms select ? "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casrn "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" from ( with sq as ( select distinct c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casrn, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort from term c inner join gene_chem_reference gcr on c.id = gcr.chem_id inner join term g on gcr.gene_id = g.id where (c.id = ?)) select distinct sq.chem_nm, sq.chem_acc_txt, sq.casrn, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm from sq inner join gene_go_annot gga on sq.gene_id = gga.gene_id inner join dag_node gt on gga.go_term_id = gt.object_id inner join dag d on gt.dag_id = d.id where gga.is_not = false and (d.id = ? or d.id = ?) order by sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;Times Reported Time consuming queries #19
Day Hour Count Duration Avg duration Mar 25 05 2 10s277ms 5s138ms 10 2 10s283ms 5s141ms [ User: pubeu - Total duration: 10s332ms - Times executed: 2 ]
[ User: qaeu - Total duration: 10s227ms - Times executed: 2 ]
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SELECT /* BatchChemGODAO */ 'ddt' "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casRN "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" FROM ( WITH sq AS ( SELECT DISTINCT c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casRN, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort FROM term c INNER JOIN gene_chem_reference gcr ON c.id = gcr.chem_id INNER JOIN term g ON gcr.gene_id = g.id WHERE (c.id = 1335246)) SELECT DISTINCT sq.chem_nm, sq.chem_acc_txt, sq.casRN, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm FROM sq INNER JOIN gene_go_annot gga ON sq.gene_id = gga.gene_id INNER JOIN dag_node gt ON gga.go_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE gga.is_not = false AND (d.id = 5 OR d.id = 4) ORDER BY sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;
Date: 2026-03-25 10:32:54 Duration: 5s207ms Database: ctdprd51 User: pubeu Bind query: yes
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SELECT /* BatchChemGODAO */ 'ddt' "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casRN "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" FROM ( WITH sq AS ( SELECT DISTINCT c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casRN, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort FROM term c INNER JOIN gene_chem_reference gcr ON c.id = gcr.chem_id INNER JOIN term g ON gcr.gene_id = g.id WHERE (c.id = 1335246)) SELECT DISTINCT sq.chem_nm, sq.chem_acc_txt, sq.casRN, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm FROM sq INNER JOIN gene_go_annot gga ON sq.gene_id = gga.gene_id INNER JOIN dag_node gt ON gga.go_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE gga.is_not = false AND (d.id = 5 OR d.id = 4) ORDER BY sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;
Date: 2026-03-25 05:43:38 Duration: 5s151ms Database: ctdprd51 User: qaeu Bind query: yes
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SELECT /* BatchChemGODAO */ 'ddt' "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casRN "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" FROM ( WITH sq AS ( SELECT DISTINCT c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casRN, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort FROM term c INNER JOIN gene_chem_reference gcr ON c.id = gcr.chem_id INNER JOIN term g ON gcr.gene_id = g.id WHERE (c.id = 1335246)) SELECT DISTINCT sq.chem_nm, sq.chem_acc_txt, sq.casRN, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm FROM sq INNER JOIN gene_go_annot gga ON sq.gene_id = gga.gene_id INNER JOIN dag_node gt ON gga.go_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE gga.is_not = false AND (d.id = 5 OR d.id = 4) ORDER BY sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;
Date: 2026-03-25 05:48:42 Duration: 5s125ms Database: ctdprd51 User: pubeu Bind query: yes
Time consuming prepare
Rank Total duration Times executed Min duration Max duration Avg duration Query NO DATASET
Time consuming bind
Rank Total duration Times executed Min duration Max duration Avg duration Query NO DATASET
-
Events
Log levels
Key values
- 8,598 Event entries
- (EVENTLOG entries are formaly LOG level entries that are not queries)
Events distribution (except queries)
Key values
- 0 PANIC entries
- 0 FATAL entries
- 15 ERROR entries
- 0 WARNING entries
- 12 EVENTLOG entries
Most Frequent Errors/Events
Key values
- 10 Max number of times the same event was reported
- 27 Total events found
Rank Times reported Error 1 10 LOG: could not receive data from client: Connection reset by peer
Times Reported Most Frequent Error / Event #1
Day Hour Count Mar 25 14 10 2 7 ERROR: invalid byte sequence for encoding
Times Reported Most Frequent Error / Event #2
Day Hour Count Mar 25 09 1 12 6 - ERROR: invalid byte sequence for encoding "UTF8": 0x00
Context: unnamed portal parameter $1
Statement: SELECT /* GeneIdBySymbolAccDAO */ t.id ,t.nm ,t.nm_sort nmSort ,t.acc_txt acc ,t.acc_db_cd accDbCd FROM term t ,(SELECT li.term_id FROM term_label li INNER JOIN term_label_type lti ON li.term_label_type_id = lti.id AND li.object_type_id = lti.object_type_id AND UPPER(li.nm) = $1 AND lti.object_type_id = 4 AND lti.nm = 'SYMBOL' UNION SELECT l.object_id FROM db_link l WHERE l.acc_txt = $2 AND l.object_type_id = 4 AND l.type_cd = 'A') ids WHERE t.id = ids.term_id ORDER BY CASE WHEN UPPER(t.nm) = $3 THEN 1 ELSE 2 END ,t.nm_sortDate: 2026-03-25 09:29:01 Database: ctdprd51 Application: User: pubeu Remote:
3 4 ERROR: relation "..." does not exist
Times Reported Most Frequent Error / Event #3
Day Hour Count Mar 25 12 1 14 3 - ERROR: relation "dag_path" does not exist at character 130
- ERROR: relation "tetramer" does not exist at character 50623
- ERROR: relation "tetramer" does not exist at character 50337
Statement: select distinct( chem_id ) from pub2.chem_disease_reference cdr where disease_id in ( select descendant_object_id from DAG_PATH where ancestor_object_id = ( select id from term where nm = 'Amyotrophic Lateral Sclerosis' ) )
Date: 2026-03-25 12:31:21 Database: ctdprd51 Application: pgAdmin 4 - CONN:4053406 User: load Remote:
Statement: select distinct chemTerm.acc_txt #015 ,chemTerm.nm #015 ,'chemical' #015 ,diseaseTerm.acc_txt #015 ,diseaseTerm.nm #015 ,'disease' #015 from pub2.CHEM_DISEASE_REFERENCE cdr #015 ,pub2.TERM chemTerm #015 ,pub2.TERM diseaseTerm #015 where cdr.disease_id = diseaseTerm.id #015 and cdr.chem_id = chemTerm.id #015 and ( cdr.chem_id IN ( SELECT id FROM term WHERE nm IN ( -- genes 'NOG' ,'TNF' ,'INS' ,'CASP3' ,'IL1B' ,'IL6' ,'MAPK1' ,'NFE2L2' ,'MAPK3' ,'HMOX1' ,'AHR' ,'CYP1A1' ,'PTGS2' ,'PPARA' ,'BCL2' ,'CAT' ,'ESR1' ,'BAX' ,'NOS2' ,'RELA' ,'TGFB1' ,'TP53' ,'RORA' ,'AKT1' ,'CXCL8' ,'PPARG' ,'IFNG' ,'AR' ,'INS1' ,'ACHE' ,'PARP1' ,'CASP9' ,'CCL2' ,'NQO1' ,'CDKN1A' ,'CYP3A4' ,'MMP9' ,'SOD2' ,'APP' ,'VEGFA' ,'CYP1A2' ,'CCND1' ,'FOS' ,'NFKBIA' ,'SOD1' ,'HIF1A' ,'DDIT3' ,'ESR2' ,'JUN' ,'IL10' ,'AGT' ,'FGF2' ,'ABCB1' ,'CYP2E1' ,'GPT' ,'NR1I3' ,'CYP1B1' ,'CASP8' ,'NR1I2' ,'MAPK8' ,'EGF' ,'SIRT1' ,'GSR' ,'ACTA2' ,'MPO' ,'MYC' ,'ICAM1' ,'HSPA5' ,'MMP2' ,'G3BP1' ,'STAT3' ,'SQSTM1' ,'EGFR' ,'IL4' ,'NFKB1' ,'TLR4' ,'CASP1' ,'ALB' ,'RX3' ,'CTNNB1' ,'NOS3' ,'IGF1' ,'BCL2L1' ,'COL1A1' ,'GCLC' ,'NLRP3' ,'MAP1LC3B' ,'CDH1' ,'SREBF1' ,'GSK3B' ,'MTOR' ,'FASN' ,'PCNA' ,'ABCC2' ,'STAR' ,'PGR' ,'BDNF' ,'PPARGC1A' ,'CYP19A1' ,'GPX1' ,'H2AX' ,'LEP' ,'VIM' ,'IL18' ,'OGA' ,'GSTP1' ,'ADIPOQ' ,'BECN1' ,'IL1A' ,'TRP53' ,'FAS' ,'EGR1' ,'VCAM1' ,'NR1H4' ,'NR3C1' ,'APOE' ,'ABCG2' ,'FN1' ,'MYD88' ,'IL2' ,'CXCL1' ,'FSHB' ,'CREB1' ,'EDN1' ,'BIRC5' ,'SERPINE1' ,'ABCC1' ,'CNR1' ,'ABCB11' ,'CYCS' ,'CD36' ,'TIMP1' ,'GCLM' ,'CYP2C9' ,'TNFSF10' ,'LHB' ,'TH' ,'CXCL2' ,'FABP4' ,'BCHE' ,'ATF4' ,'PON1' ,'CYP11A1' ,'SPP1' ,'CASP7' ,'HMGCR' ,'MAPK9' ,'IL12B' ,'CYP17A1' ,'CCNB1' ,'CDKN1B' ,'CYP2B6' ,'RB1' ,'PRL' ,'MAPK14' ,'CEBPB' ,'CXCL10' ,'TIPARP' ,'GADD45A' ,'XBP1' ,'ATF3' ,'TRPV1' ,'CDK1' ,'MT1' ,'LPL' ,'GJA1' ,'MKI67' ,'MAPT' ,'ADRB2' ,'PTEN' ,'TXNRD1' ,'CPT1A' ,'KEAP1' ,'CYP7A1' ,'SLC2A1' ,'CCL5' ,'RPS6KB1' ,'ACACA' ,'KCNH2' ,'CEBPA' ,'STAT1' ,'INHBA' ,'MCL1' ,'BMP4' ,'CCN2' ,'SRC' ,'CSF2' ,'PTGS1' ,'EIF2AK3' ,'XDH' ,'SNCA' ,'ABCA1' ,'CDK2' ,'GPX4' ,'THRB' ,'CNR2' ,'DRD2' ,'LDLR' ,'GSTM1' ,'ABCC3' -- chemicals ,'bisphenol A' ,'Tetrachlorodibenzodioxin' ,'Benzo(a)pyrene' ,'Valproic Acid' ,'sodium arsenite' ,'Lipopolysaccharides' ,'Estradiol' ,'Acetaminophen' ,'4-(5-benzo(1,3)dioxol-5-yl-4-pyridin-2-yl-1H-imidazol-2-yl)benzamide' ,'dorsomorphin' ,'Particulate Matter' ,'Dexamethasone' ,'Cadmium Chloride' ,'titanium dioxide' ,'Aflatoxin B1' ,'Air Pollutants' ,'Cisplatin' ,'Tobacco Smoke Pollution' ,'Carbon Tetrachloride' ,'Resveratrol' ,'Doxorubicin' ,'pirinixic acid' ,'Ethinyl Estradiol' ,'Ozone' ,'Tretinoin' ,'Ethanol' ,'Dietary Fats' ,'Thioacetamide' ,'Cyclosporine' ,'Nanotubes, Carbon' ,'perfluorooctane sulfonic acid' ,'bisphenol S' ,'Folic Acid' ,'Vehicle Emissions' ,'1,2-Dimethylhydrazine' ,'Oxygen' ,'trichostatin A' ,'1-Methyl-3-isobutylxanthine' ,'Silicon Dioxide' ,'Indomethacin' ,'bisphenol F' ,'CGP 52608' ,'Atrazine' ,'Arsenic Trioxide' ,'methylmercuric chloride' ,'Cadmium' ,'Phenobarbital' ,'arsenite' ,'decamethrin' ,'Paraquat' ,'Tetradecanoylphorbol Acetate' ,'Quercetin' ,'Propylthiouracil' ,'Hydrogen Peroxide' ,'perfluorooctanoic acid' ,'Glucose' ,'Copper' ,'Smoke' ,'Chlorpyrifos' ,'triphenyl phosphate' ,'Gentamicins' ,'Diethylhexyl Phthalate' ,'Arsenic' ,'Rotenone' ,'Diethylnitrosamine' ,'Testosterone' ,'Acrylamide' ,'Phenylmercuric Acetate' ,'Dibutyl Phthalate' ,'Streptozocin' ,'Progesterone' ,'Plant Extracts' ,'Trichloroethylene' ,'aristolochic acid I' ,'Copper Sulfate' ,'cobaltous chloride' ,'Methyl Methanesulfonate' ,'Methamphetamine' ,'(+)-JQ1 compound' ,'jinfukang' ,'deoxynivalenol' ,'vinclozolin' ,'abrine' ,'Nickel' ,'Dioxins' ,'Genistein' ,'Fulvestrant' ,'Clofibrate' ,'Rosiglitazone' ,'Soot' ,'Cocaine' ,'Sunitinib' ,'Dronabinol' ,'Methotrexate' ,'JP8 aviation fuel' ,'triptonide' ,'entinostat' ,'2,2'',4,4''-tetrabromodiphenyl ether' ,'Tamoxifen' ,'Acetylcysteine' ,'1-Methyl-4-phenylpyridinium' ,'Calcitriol' ,'Acrolein' ,'di-n-butylphosphoric acid' ,'Thiram' ,'Endosulfan' ,'Zinc' ,'Ammonium Chloride' ,'Choline' ,'Ionomycin' ,'Formaldehyde' ,'tris(1,3-dichloro-2-propyl)phosphate' ,'Caffeine' ,'potassium chromate(VI)' ,'Methionine' ,'lead acetate' ,'perfluorooctanesulfonamide' ,'lipopolysaccharide, E coli O55-B5' ,'Flutamide' ,'Vorinostat' ,'furan' ,'Ivermectin' ,'Curcumin' ,'Lead' ,'Urethane' ,'Troglitazone' ,'S-(1,2-dichlorovinyl)cysteine' ,'Fluorouracil' ,'Fenretinide' ,'ethylene dichloride' ,'Dextran Sulfate' ,'hexabromocyclododecane' ,'Asbestos, Crocidolite' ,'7,8-Dihydro-7,8-dihydroxybenzo(a)pyrene 9,10-oxide' ,'sodium arsenate' ,'manganese chloride' ,'lipopolysaccharide, Escherichia coli O111 B4' ,'Cuprizone' ,'Methapyrilene' ,'Topotecan' ,'Isoproterenol' ,'epoxiconazole' ,'FR900359' ,'Methimazole' ,'Nicotine' ,'Antirheumatic Agents' ,'3,4,5,3'',4''-pentachlorobiphenyl' ,'methacrylaldehyde' ,'chromium hexavalent ion' ,'Triclosan' ,'Glyphosate' ,'N-Methyl-3,4-methylenedioxyamphetamine' ,'mono-(2-ethylhexyl)phthalate' ,'Aluminum' ,'Oxaliplatin' ,'T-2 Toxin' ,'Cellulose' ,'Decitabine' ,'acetamide' ,'Amitrole' ,'beta-lapachone' ,'Cyclophosphamide' ,'butyraldehyde' ,'Selenium' ,'alpha-pinene' ,'Temozolomide' ,'Amiodarone' ,'4,4''-diaminodiphenylmethane' ,'1,4-bis(2-(3,5-dichloropyridyloxy))benzene' ,'Panobinostat' ,'Diethylstilbestrol' ,'decabromobiphenyl ether' ,'Tunicamycin' ,'Carbamazepine' ,'Lactic Acid' ,'Sodium Fluoride' ,'Cannabidiol' ,'ochratoxin A' ,'epigallocatechin gallate' ,'1-Naphthylisothiocyanate' ,'fipronil' ,'Mercuric Chloride' ,'Coumestrol' ,'Paclitaxel' ,'bisphenol AF' ,'tert-Butylhydroperoxide' ,'dicrotophos' ,'sulforaphane' ,'Enzyme Inhibitors' ,'Dichlorodiphenyl Dichloroethylene' ,'1H,1H,10H,10H-perfluorodecane-1,10-diol' ,'Methoxychlor' ,'Thapsigargin' ,'Leflunomide' ,'Haloperidol' ,'2,4,5,2'',4'',5''-hexachlorobiphenyl' ,'9,10-Dimethyl-1,2-benzanthracene' ,'Silver' -- diseases ,'Chemical and Drug Induced Liver Injury' ,'Seizures' ,'Hypertension' ,'Hypotension' ,'Kidney Diseases' ,'Pain' ,'Acute Kidney Injury' ,'Breast Neoplasms' ,'Necrosis' ,'Weight Loss' ,'Inflammation' ,'Drug-Related Side Effects and Adverse Reactions' ,'Cocaine-Related Disorders' ,'Heart Failure' ,'Substance Withdrawal Syndrome' ,'Depressive Disorder' ,'Bradycardia' ,'Prostatic Neoplasms' ,'Hyperalgesia' ,'Prenatal Exposure Delayed Effects' ,'Myocardial Infarction' ,'Catalepsy' ,'Liver Cirrhosis, Experimental' ,'Hyperkinesis' ,'Edema' ,'Arrhythmias, Cardiac' ,'Carcinoma, Hepatocellular' ,'Dyskinesia, Drug-Induced' ,'Nausea' ,'Vomiting' ,'Lung Neoplasms' ,'Disease Models, Animal' ,'Hyperglycemia' ,'Hepatomegaly' ,'Weight Gain' ,'Cardiomyopathies' ,'Tachycardia' ,'Headache' ,'Bipolar Disorder' ,'Nerve Degeneration' ,'Proteinuria' ,'Diabetes Mellitus, Experimental' ,'Anemia' ,'Memory Disorders' ,'Tremor' ,'Peripheral Nervous System Diseases' ,'Fatty Liver' ,'Parkinson Disease' ,'Liver Neoplasms' ,'Status Epilepticus' ,'Schizophrenia' ,'Thrombocytopenia' ,'Liver Neoplasms, Experimental' ,'Cognition Disorders' ,'Heart Diseases' ,'Hemorrhage' ,'Arthritis, Rheumatoid' ,'Renal Insufficiency' ,'Fever' ,'Asthma' ,'Cholestasis' ,'Insulin Resistance' ,'Urinary Bladder Neoplasms' ,'Obesity' ,'Nervous System Diseases' ,'Liver Cirrhosis' ,'Poisoning' ,'Muscular Diseases' ,'Diarrhea' ,'Neoplasms, Experimental' ,'Colorectal Neoplasms' ,'Atrial Fibrillation' ,'Neutropenia' ,'Tachycardia, Ventricular' ,'Anxiety Disorders' ,'Colonic Neoplasms' ,'Epilepsy' ,'Myocardial Ischemia' ,'Stomach Neoplasms' ,'Amnesia' ,'Cardiomegaly' ,'Brain Injuries' ,'Parkinsonian Disorders' ,'Diabetes Mellitus, Type 2' ,'Neoplasm Metastasis' ,'Melanoma' ,'Neoplasm Invasiveness' ,'Torsades de Pointes' ,'Neoplasms' ,'Long QT Syndrome' ,'Ventricular Dysfunction, Left' ,'Cell Transformation, Neoplastic' ,'Thrombosis' ,'Pain, Postoperative' ,'Movement Disorders' ,'Hallucinations' ,'Dystonia' ,'Nephritis, Interstitial' ,'Stomach Ulcer' ,'Carcinoma, Non-Small-Cell Lung' ,'Pulmonary Fibrosis' ,'Brain Diseases' ,'Fibrosis' ,'Learning Disabilities' ,'Heart Arrest' ,'Drug Hypersensitivity' ,'Liver Diseases' ,'Psychoses, Substance-Induced' ,'Dizziness' ,'Cardiovascular Diseases' ,'Hypokalemia' ,'Ventricular Fibrillation' ,'Autistic Disorder' ,'Precursor Cell Lymphoblastic Leukemia-Lymphoma' ,'Myoclonus' ,'Hyperplasia' ,'Precancerous Conditions' ,'Multiple Myeloma' ,'Angina Pectoris' ,'Neurotoxicity Syndromes' ,'Liver Failure, Acute' ,'Leukemia, Promyelocytic, Acute' ,'Adenocarcinoma' ,'Basal Ganglia Diseases' ,'Cystitis' ,'Hepatitis B' ,'Hepatitis' ,'Dermatitis, Allergic Contact' ,'Leukemia, Myeloid, Acute' ,'Lung Injury' ,'HIV Infections' ,'Ataxia' ,'Ovarian Neoplasms' ,'Atherosclerosis' ,'Mammary Neoplasms, Experimental' ,'Abnormalities, Drug-Induced' ,'Confusion' ,'Staphylococcal Infections' ,'Autism Spectrum Disorder' ,'Stroke' ,'Leukopenia' ,'Testicular Diseases' ,'Reperfusion Injury' ,'Colitis' ,'Alzheimer Disease' ,'Carcinoma' ,'Glucose Intolerance' ,'Skin Neoplasms' ,'Anemia, Hemolytic' ,'Exanthema' ,'Hypertension, Pulmonary' ,'Muscle Rigidity' ,'Psychotic Disorders' ,'Hypercholesterolemia' ,'Angioedema' ,'Delirium' ,'Non-alcoholic Fatty Liver Disease' ,'Paralysis' ,'Apnea' ,'Pulmonary Edema' ,'Pneumonia' ,'Micronuclei, Chromosome-Defective' ,'Venous Thrombosis' ,'Parkinson Disease, Secondary' ,'Nephrotic Syndrome' ,'Muscle Weakness' ,'Pruritus' ,'Drug Eruptions' ,'Acute Lung Injury' ,'Hypothermia' ,'Pancreatic Neoplasms' ,'Diabetic Nephropathies' ,'Gastrointestinal Diseases' ,'Substance-Related Disorders' ,'Coma' ,'Epilepsy, Tonic-Clonic' ,'Craniofacial Abnormalities' ,'Stevens-Johnson Syndrome' ,'Migraine Disorders' ,'Vision Disorders' ,'Jaundice' ,'Paresthesia' ,'Carcinoma, Squamous Cell' ,'Fatigue' ,'Cerebral Hemorrhage' ,'Hypercalcemia' ,'Skin Diseases' ,'Hypotension, Orthostatic' ,'Urticaria' ,'Hematuria' ,'Erectile Dysfunction' ,'Colitis, Ulcerative' ,'Mammary Neoplasms, Animal' ,'Lung Diseases' ,'Rhabdomyolysis' ,'Oligospermia' ,'Depressive Disorder, Major' ,'Anemia, Aplastic' ,'Anorexia' ,'Hyperlipidemias' -- phenotypes ,'apoptotic process' ,'cell population proliferation' ,'cellular metabolic process' ,'lipid oxidation' ,'glutathione metabolic process' ,'reactive oxygen species metabolic process' ,'lipid catabolic process' ,'cell death' ,'detection of oxidative stress' ,'positive regulation of apoptotic process' ,'superoxide dismutase activity' ,'positive regulation of reactive oxygen species biosynthetic process' ,'positive regulation of cell death' ,'regulation of blood pressure' ,'reactive oxygen species biosynthetic process' ,'negative regulation of cell population proliferation' ,'regulation of mitochondrial membrane potential' ,'vasoconstriction' ,'glutathione biosynthetic process' ,'membrane lipid catabolic process' ,'glutathione peroxidase activity' ,'cellular response to DNA damage stimulus' ,'cholesterol metabolic process' ,'positive regulation of cell population proliferation' ,'triglyceride metabolic process' ,'response to oxidative stress' ,'regulation of heart rate' ,'negative regulation of mitotic cell cycle' ,'vasodilation' ,'ATP metabolic process' ,'cell growth' ,'cellular calcium ion homeostasis' ,'leukocyte migration involved in inflammatory response' ,'nitric oxide metabolic process' ,'creatinine metabolic process' ,'apoptotic DNA fragmentation' ,'lipid droplet formation' ,'ncRNA transcription' ,'protein oxidation' ,'mitotic cell cycle process' ,'DNA modification' ,'inflammatory response' ,'cholesterol homeostasis' ,'glutathione transferase activity' ,'autophagy' ,'fat cell differentiation' ,'triglyceride homeostasis' ,'lipid metabolic process' ,'necrotic cell death' ,'xenobiotic metabolic process' ,'negative regulation of superoxide dismutase activity' ,'triglyceride biosynthetic process' ,'cell migration' ,'cell redox homeostasis' ,'bile acid metabolic process' ,'nitric oxide biosynthetic process' ,'superoxide anion generation' ,'lactate dehydrogenase activity' ,'cell cycle' ,'amino acid metabolic process' ,'testosterone biosynthetic process' ,'activation of protein kinase B activity' ,'L-aspartate:2-oxoglutarate aminotransferase activity' ,'positive regulation of nitric oxide biosynthetic process' ,'cholesterol biosynthetic process' ,'protein import into nucleus' ,'positive regulation of protein import into nucleus' ,'wound healing, spreading of cells' ,'alkaline phosphatase activity' ,'positive regulation of cytosolic calcium ion concentration' ,'glucose homeostasis' ,'positive regulation of mitochondrial membrane potential' ,'fatty acid metabolic process' ,'cell chemotaxis' ,'positive regulation of vasoconstriction' ,'spermatogenesis' ,'positive regulation of neuron death' ,'positive regulation of superoxide dismutase activity' ,'collagen fibril organization' ,'cell differentiation' ,'histone H3-K9 acetylation' ,'mitochondrion organization' ,'positive regulation of protein localization to nucleus' ,'positive regulation of p38MAPK cascade' ,'ATP biosynthetic process' ,'metabolic process' ,'locomotion involved in locomotory behavior' ,'urate metabolic process' ,'dopamine metabolic process' ,'positive regulation of NF-kappaB transcription factor activity' ,'embryo development' ,'lipid biosynthetic process' ,'protein lipidation' ,'histamine secretion mediated by immunoglobulin' ,'glucose metabolic process' ,'negative regulation of mitochondrial membrane potential' ,'release of cytochrome c from mitochondria' ,'DNA catabolic process, endonucleolytic' ,'cellular respiration' ,'calcium ion homeostasis' ,'positive regulation of cell migration' ,'regulation of cellular metabolic process' ,'reactive nitrogen species metabolic process' ,'positive regulation of inflammatory response' ,'establishment of protein localization to plasma membrane' ,'lipid homeostasis' ,'response to antineoplastic agent' ,'glucose import' ,'urea metabolic process' ,'positive regulation of ERK1 and ERK2 cascade' ,'positive regulation of necrotic cell death' ,'memory' ,'negative regulation of glutathione peroxidase activity' ,'positive regulation of apoptotic DNA fragmentation' ,'mitochondrial depolarization' ,'G2/M transition of mitotic cell cycle' ,'cAMP metabolic process' ,'mitotic S phase' ,'hydrogen peroxide biosynthetic process' ,'positive regulation of superoxide anion generation' ,'positive regulation of autophagy' ,'protein modification process' ,'regulation of metabolic process' ,'cellular iron ion homeostasis' ,'lactate metabolic process' ,'DNA methylation on cytosine within a CG sequence' ,'apoptotic chromosome condensation' ,'serotonin metabolic process' ,'cellular lipid metabolic process' ,'positive regulation of glutathione peroxidase activity' ,'transepithelial transport' ,'positive regulation of lipid storage' ,'hydrogen peroxide metabolic process' ,'G0 to G1 transition' ,'positive regulation of collagen biosynthetic process' ,'iron ion homeostasis' ,'positive regulation of cytolysis' ,'gluconeogenesis' ,'micronucleus organization' ,'microglial cell activation' ,'positive regulation of autophagosome assembly' ,'positive regulation of NIK/NF-kappaB signaling' ,'calcium-mediated signaling' ,'positive regulation of cytokine production involved in inflammatory response' ,'cellular senescence' ,'neuron death' ,'macrophage activation' ,'cAMP biosynthetic process' ,'positive regulation of lipid catabolic process' ,'negative regulation of response to drug' ,'calcium ion import' ,'behavioral response to pain' ,'positive regulation of intracellular estrogen receptor signaling pathway' ,'regulation of bile acid metabolic process' ,'mitotic cell cycle' ,'autophagosome assembly' ,'prostaglandin metabolic process' ,'protein poly-ADP-ribosylation' ,'DNA methylation' ,'glycolytic process' ,'positive regulation of fat cell differentiation' ,'protein lipidation involved in autophagosome assembly' ,'estrogen metabolic process' ,'thyroid hormone metabolic process' ,'positive regulation of organ growth' ,'neutrophil migration' ,'NADH dehydrogenase (ubiquinone) activity' ,'prostaglandin biosynthetic process' ,'negative regulation of ATP biosynthetic process' ,'adipose tissue development' ,'larval development' ,'androgen metabolic process' ,'amino acid biosynthetic process' ,'aerobic respiration' ,'positive regulation of cellular extravasation' ,'positive regulation of neutrophil extravasation' ,'negative regulation of cell migration' ,'carbohydrate metabolic process' ,'positive regulation of JNK cascade' ,'positive regulation of neuron apoptotic process' ,'positive regulation of release of cytochrome c from mitochondria' ,'cognition' ,'vacuole organization' ,'renal sodium excretion' ,'osteoclast differentiation' ,'positive regulation of epithelial to mesenchymal transition' ,'glutathione derivative biosynthetic process' ,'arachidonic acid metabolic process' ,'neurotransmitter metabolic process' ,'stress granule assembly' ,'sperm motility' ,'hepatocyte differentiation' ,'AMP-activated protein kinase activity' ,'swimming behavior' ,'negative regulation of monooxygenase activity' ,'fatty acid homeostasis' ,'L-ascorbic acid metabolic process' ,'pyroptosis' ,'response to xenobiotic stimulus' ,'positive regulation of prostaglandin biosynthetic process' ) ) and cdr.disease_id IN ( SELECT id FROM term WHERE nm IN ( -- genes 'NOG' ,'TNF' ,'INS' ,'CASP3' ,'IL1B' ,'IL6' ,'MAPK1' ,'NFE2L2' ,'MAPK3' ,'HMOX1' ,'AHR' ,'CYP1A1' ,'PTGS2' ,'PPARA' ,'BCL2' ,'CAT' ,'ESR1' ,'BAX' ,'NOS2' ,'RELA' ,'TGFB1' ,'TP53' ,'RORA' ,'AKT1' ,'CXCL8' ,'PPARG' ,'IFNG' ,'AR' ,'INS1' ,'ACHE' ,'PARP1' ,'CASP9' ,'CCL2' ,'NQO1' ,'CDKN1A' ,'CYP3A4' ,'MMP9' ,'SOD2' ,'APP' ,'VEGFA' ,'CYP1A2' ,'CCND1' ,'FOS' ,'NFKBIA' ,'SOD1' ,'HIF1A' ,'DDIT3' ,'ESR2' ,'JUN' ,'IL10' ,'AGT' ,'FGF2' ,'ABCB1' ,'CYP2E1' ,'GPT' ,'NR1I3' ,'CYP1B1' ,'CASP8' ,'NR1I2' ,'MAPK8' ,'EGF' ,'SIRT1' ,'GSR' ,'ACTA2' ,'MPO' ,'MYC' ,'ICAM1' ,'HSPA5' ,'MMP2' ,'G3BP1' ,'STAT3' ,'SQSTM1' ,'EGFR' ,'IL4' ,'NFKB1' ,'TLR4' ,'CASP1' ,'ALB' ,'RX3' ,'CTNNB1' ,'NOS3' ,'IGF1' ,'BCL2L1' ,'COL1A1' ,'GCLC' ,'NLRP3' ,'MAP1LC3B' ,'CDH1' ,'SREBF1' ,'GSK3B' ,'MTOR' ,'FASN' ,'PCNA' ,'ABCC2' ,'STAR' ,'PGR' ,'BDNF' ,'PPARGC1A' ,'CYP19A1' ,'GPX1' ,'H2AX' ,'LEP' ,'VIM' ,'IL18' ,'OGA' ,'GSTP1' ,'ADIPOQ' ,'BECN1' ,'IL1A' ,'TRP53' ,'FAS' ,'EGR1' ,'VCAM1' ,'NR1H4' ,'NR3C1' ,'APOE' ,'ABCG2' ,'FN1' ,'MYD88' ,'IL2' ,'CXCL1' ,'FSHB' ,'CREB1' ,'EDN1' ,'BIRC5' ,'SERPINE1' ,'ABCC1' ,'CNR1' ,'ABCB11' ,'CYCS' ,'CD36' ,'TIMP1' ,'GCLM' ,'CYP2C9' ,'TNFSF10' ,'LHB' ,'TH' ,'CXCL2' ,'FABP4' ,'BCHE' ,'ATF4' ,'PON1' ,'CYP11A1' ,'SPP1' ,'CASP7' ,'HMGCR' ,'MAPK9' ,'IL12B' ,'CYP17A1' ,'CCNB1' ,'CDKN1B' ,'CYP2B6' ,'RB1' ,'PRL' ,'MAPK14' ,'CEBPB' ,'CXCL10' ,'TIPARP' ,'GADD45A' ,'XBP1' ,'ATF3' ,'TRPV1' ,'CDK1' ,'MT1' ,'LPL' ,'GJA1' ,'MKI67' ,'MAPT' ,'ADRB2' ,'PTEN' ,'TXNRD1' ,'CPT1A' ,'KEAP1' ,'CYP7A1' ,'SLC2A1' ,'CCL5' ,'RPS6KB1' ,'ACACA' ,'KCNH2' ,'CEBPA' ,'STAT1' ,'INHBA' ,'MCL1' ,'BMP4' ,'CCN2' ,'SRC' ,'CSF2' ,'PTGS1' ,'EIF2AK3' ,'XDH' ,'SNCA' ,'ABCA1' ,'CDK2' ,'GPX4' ,'THRB' ,'CNR2' ,'DRD2' ,'LDLR' ,'GSTM1' ,'ABCC3' -- chemicals ,'bisphenol A' ,'Tetrachlorodibenzodioxin' ,'Benzo(a)pyrene' ,'Valproic Acid' ,'sodium arsenite' ,'Lipopolysaccharides' ,'Estradiol' ,'Acetaminophen' ,'4-(5-benzo(1,3)dioxol-5-yl-4-pyridin-2-yl-1H-imidazol-2-yl)benzamide' ,'dorsomorphin' ,'Particulate Matter' ,'Dexamethasone' ,'Cadmium Chloride' ,'titanium dioxide' ,'Aflatoxin B1' ,'Air Pollutants' ,'Cisplatin' ,'Tobacco Smoke Pollution' ,'Carbon Tetrachloride' ,'Resveratrol' ,'Doxorubicin' ,'pirinixic acid' ,'Ethinyl Estradiol' ,'Ozone' ,'Tretinoin' ,'Ethanol' ,'Dietary Fats' ,'Thioacetamide' ,'Cyclosporine' ,'Nanotubes, Carbon' ,'perfluorooctane sulfonic acid' ,'bisphenol S' ,'Folic Acid' ,'Vehicle Emissions' ,'1,2-Dimethylhydrazine' ,'Oxygen' ,'trichostatin A' ,'1-Methyl-3-isobutylxanthine' ,'Silicon Dioxide' ,'Indomethacin' ,'bisphenol F' ,'CGP 52608' ,'Atrazine' ,'Arsenic Trioxide' ,'methylmercuric chloride' ,'Cadmium' ,'Phenobarbital' ,'arsenite' ,'decamethrin' ,'Paraquat' ,'Tetradecanoylphorbol Acetate' ,'Quercetin' ,'Propylthiouracil' ,'Hydrogen Peroxide' ,'perfluorooctanoic acid' ,'Glucose' ,'Copper' ,'Smoke' ,'Chlorpyrifos' ,'triphenyl phosphate' ,'Gentamicins' ,'Diethylhexyl Phthalate' ,'Arsenic' ,'Rotenone' ,'Diethylnitrosamine' ,'Testosterone' ,'Acrylamide' ,'Phenylmercuric Acetate' ,'Dibutyl Phthalate' ,'Streptozocin' ,'Progesterone' ,'Plant Extracts' ,'Trichloroethylene' ,'aristolochic acid I' ,'Copper Sulfate' ,'cobaltous chloride' ,'Methyl Methanesulfonate' ,'Methamphetamine' ,'(+)-JQ1 compound' ,'jinfukang' ,'deoxynivalenol' ,'vinclozolin' ,'abrine' ,'Nickel' ,'Dioxins' ,'Genistein' ,'Fulvestrant' ,'Clofibrate' ,'Rosiglitazone' ,'Soot' ,'Cocaine' ,'Sunitinib' ,'Dronabinol' ,'Methotrexate' ,'JP8 aviation fuel' ,'triptonide' ,'entinostat' ,'2,2'',4,4''-tetrabromodiphenyl ether' ,'Tamoxifen' ,'Acetylcysteine' ,'1-Methyl-4-phenylpyridinium' ,'Calcitriol' ,'Acrolein' ,'di-n-butylphosphoric acid' ,'Thiram' ,'Endosulfan' ,'Zinc' ,'Ammonium Chloride' ,'Choline' ,'Ionomycin' ,'Formaldehyde' ,'tris(1,3-dichloro-2-propyl)phosphate' ,'Caffeine' ,'potassium chromate(VI)' ,'Methionine' ,'lead acetate' ,'perfluorooctanesulfonamide' ,'lipopolysaccharide, E coli O55-B5' ,'Flutamide' ,'Vorinostat' ,'furan' ,'Ivermectin' ,'Curcumin' ,'Lead' ,'Urethane' ,'Troglitazone' ,'S-(1,2-dichlorovinyl)cysteine' ,'Fluorouracil' ,'Fenretinide' ,'ethylene dichloride' ,'Dextran Sulfate' ,'hexabromocyclododecane' ,'Asbestos, Crocidolite' ,'7,8-Dihydro-7,8-dihydroxybenzo(a)pyrene 9,10-oxide' ,'sodium arsenate' ,'manganese chloride' ,'lipopolysaccharide, Escherichia coli O111 B4' ,'Cuprizone' ,'Methapyrilene' ,'Topotecan' ,'Isoproterenol' ,'epoxiconazole' ,'FR900359' ,'Methimazole' ,'Nicotine' ,'Antirheumatic Agents' ,'3,4,5,3'',4''-pentachlorobiphenyl' ,'methacrylaldehyde' ,'chromium hexavalent ion' ,'Triclosan' ,'Glyphosate' ,'N-Methyl-3,4-methylenedioxyamphetamine' ,'mono-(2-ethylhexyl)phthalate' ,'Aluminum' ,'Oxaliplatin' ,'T-2 Toxin' ,'Cellulose' ,'Decitabine' ,'acetamide' ,'Amitrole' ,'beta-lapachone' ,'Cyclophosphamide' ,'butyraldehyde' ,'Selenium' ,'alpha-pinene' ,'Temozolomide' ,'Amiodarone' ,'4,4''-diaminodiphenylmethane' ,'1,4-bis(2-(3,5-dichloropyridyloxy))benzene' ,'Panobinostat' ,'Diethylstilbestrol' ,'decabromobiphenyl ether' ,'Tunicamycin' ,'Carbamazepine' ,'Lactic Acid' ,'Sodium Fluoride' ,'Cannabidiol' ,'ochratoxin A' ,'epigallocatechin gallate' ,'1-Naphthylisothiocyanate' ,'fipronil' ,'Mercuric Chloride' ,'Coumestrol' ,'Paclitaxel' ,'bisphenol AF' ,'tert-Butylhydroperoxide' ,'dicrotophos' ,'sulforaphane' ,'Enzyme Inhibitors' ,'Dichlorodiphenyl Dichloroethylene' ,'1H,1H,10H,10H-perfluorodecane-1,10-diol' ,'Methoxychlor' ,'Thapsigargin' ,'Leflunomide' ,'Haloperidol' ,'2,4,5,2'',4'',5''-hexachlorobiphenyl' ,'9,10-Dimethyl-1,2-benzanthracene' ,'Silver' -- diseases ,'Chemical and Drug Induced Liver Injury' ,'Seizures' ,'Hypertension' ,'Hypotension' ,'Kidney Diseases' ,'Pain' ,'Acute Kidney Injury' ,'Breast Neoplasms' ,'Necrosis' ,'Weight Loss' ,'Inflammation' ,'Drug-Related Side Effects and Adverse Reactions' ,'Cocaine-Related Disorders' ,'Heart Failure' ,'Substance Withdrawal Syndrome' ,'Depressive Disorder' ,'Bradycardia' ,'Prostatic Neoplasms' ,'Hyperalgesia' ,'Prenatal Exposure Delayed Effects' ,'Myocardial Infarction' ,'Catalepsy' ,'Liver Cirrhosis, Experimental' ,'Hyperkinesis' ,'Edema' ,'Arrhythmias, Cardiac' ,'Carcinoma, Hepatocellular' ,'Dyskinesia, Drug-Induced' ,'Nausea' ,'Vomiting' ,'Lung Neoplasms' ,'Disease Models, Animal' ,'Hyperglycemia' ,'Hepatomegaly' ,'Weight Gain' ,'Cardiomyopathies' ,'Tachycardia' ,'Headache' ,'Bipolar Disorder' ,'Nerve Degeneration' ,'Proteinuria' ,'Diabetes Mellitus, Experimental' ,'Anemia' ,'Memory Disorders' ,'Tremor' ,'Peripheral Nervous System Diseases' ,'Fatty Liver' ,'Parkinson Disease' ,'Liver Neoplasms' ,'Status Epilepticus' ,'Schizophrenia' ,'Thrombocytopenia' ,'Liver Neoplasms, Experimental' ,'Cognition Disorders' ,'Heart Diseases' ,'Hemorrhage' ,'Arthritis, Rheumatoid' ,'Renal Insufficiency' ,'Fever' ,'Asthma' ,'Cholestasis' ,'Insulin Resistance' ,'Urinary Bladder Neoplasms' ,'Obesity' ,'Nervous System Diseases' ,'Liver Cirrhosis' ,'Poisoning' ,'Muscular Diseases' ,'Diarrhea' ,'Neoplasms, Experimental' ,'Colorectal Neoplasms' ,'Atrial Fibrillation' ,'Neutropenia' ,'Tachycardia, Ventricular' ,'Anxiety Disorders' ,'Colonic Neoplasms' ,'Epilepsy' ,'Myocardial Ischemia' ,'Stomach Neoplasms' ,'Amnesia' ,'Cardiomegaly' ,'Brain Injuries' ,'Parkinsonian Disorders' ,'Diabetes Mellitus, Type 2' ,'Neoplasm Metastasis' ,'Melanoma' ,'Neoplasm Invasiveness' ,'Torsades de Pointes' ,'Neoplasms' ,'Long QT Syndrome' ,'Ventricular Dysfunction, Left' ,'Cell Transformation, Neoplastic' ,'Thrombosis' ,'Pain, Postoperative' ,'Movement Disorders' ,'Hallucinations' ,'Dystonia' ,'Nephritis, Interstitial' ,'Stomach Ulcer' ,'Carcinoma, Non-Small-Cell Lung' ,'Pulmonary Fibrosis' ,'Brain Diseases' ,'Fibrosis' ,'Learning Disabilities' ,'Heart Arrest' ,'Drug Hypersensitivity' ,'Liver Diseases' ,'Psychoses, Substance-Induced' ,'Dizziness' ,'Cardiovascular Diseases' ,'Hypokalemia' ,'Ventricular Fibrillation' ,'Autistic Disorder' ,'Precursor Cell Lymphoblastic Leukemia-Lymphoma' ,'Myoclonus' ,'Hyperplasia' ,'Precancerous Conditions' ,'Multiple Myeloma' ,'Angina Pectoris' ,'Neurotoxicity Syndromes' ,'Liver Failure, Acute' ,'Leukemia, Promyelocytic, Acute' ,'Adenocarcinoma' ,'Basal Ganglia Diseases' ,'Cystitis' ,'Hepatitis B' ,'Hepatitis' ,'Dermatitis, Allergic Contact' ,'Leukemia, Myeloid, Acute' ,'Lung Injury' ,'HIV Infections' ,'Ataxia' ,'Ovarian Neoplasms' ,'Atherosclerosis' ,'Mammary Neoplasms, Experimental' ,'Abnormalities, Drug-Induced' ,'Confusion' ,'Staphylococcal Infections' ,'Autism Spectrum Disorder' ,'Stroke' ,'Leukopenia' ,'Testicular Diseases' ,'Reperfusion Injury' ,'Colitis' ,'Alzheimer Disease' ,'Carcinoma' ,'Glucose Intolerance' ,'Skin Neoplasms' ,'Anemia, Hemolytic' ,'Exanthema' ,'Hypertension, Pulmonary' ,'Muscle Rigidity' ,'Psychotic Disorders' ,'Hypercholesterolemia' ,'Angioedema' ,'Delirium' ,'Non-alcoholic Fatty Liver Disease' ,'Paralysis' ,'Apnea' ,'Pulmonary Edema' ,'Pneumonia' ,'Micronuclei, Chromosome-Defective' ,'Venous Thrombosis' ,'Parkinson Disease, Secondary' ,'Nephrotic Syndrome' ,'Muscle Weakness' ,'Pruritus' ,'Drug Eruptions' ,'Acute Lung Injury' ,'Hypothermia' ,'Pancreatic Neoplasms' ,'Diabetic Nephropathies' ,'Gastrointestinal Diseases' ,'Substance-Related Disorders' ,'Coma' ,'Epilepsy, Tonic-Clonic' ,'Craniofacial Abnormalities' ,'Stevens-Johnson Syndrome' ,'Migraine Disorders' ,'Vision Disorders' ,'Jaundice' ,'Paresthesia' ,'Carcinoma, Squamous Cell' ,'Fatigue' ,'Cerebral Hemorrhage' ,'Hypercalcemia' ,'Skin Diseases' ,'Hypotension, Orthostatic' ,'Urticaria' ,'Hematuria' ,'Erectile Dysfunction' ,'Colitis, Ulcerative' ,'Mammary Neoplasms, Animal' ,'Lung Diseases' ,'Rhabdomyolysis' ,'Oligospermia' ,'Depressive Disorder, Major' ,'Anemia, Aplastic' ,'Anorexia' ,'Hyperlipidemias' -- phenotypes ,'apoptotic process' ,'cell population proliferation' ,'cellular metabolic process' ,'lipid oxidation' ,'glutathione metabolic process' ,'reactive oxygen species metabolic process' ,'lipid catabolic process' ,'cell death' ,'detection of oxidative stress' ,'positive regulation of apoptotic process' ,'superoxide dismutase activity' ,'positive regulation of reactive oxygen species biosynthetic process' ,'positive regulation of cell death' ,'regulation of blood pressure' ,'reactive oxygen species biosynthetic process' ,'negative regulation of cell population proliferation' ,'regulation of mitochondrial membrane potential' ,'vasoconstriction' ,'glutathione biosynthetic process' ,'membrane lipid catabolic process' ,'glutathione peroxidase activity' ,'cellular response to DNA damage stimulus' ,'cholesterol metabolic process' ,'positive regulation of cell population proliferation' ,'triglyceride metabolic process' ,'response to oxidative stress' ,'regulation of heart rate' ,'negative regulation of mitotic cell cycle' ,'vasodilation' ,'ATP metabolic process' ,'cell growth' ,'cellular calcium ion homeostasis' ,'leukocyte migration involved in inflammatory response' ,'nitric oxide metabolic process' ,'creatinine metabolic process' ,'apoptotic DNA fragmentation' ,'lipid droplet formation' ,'ncRNA transcription' ,'protein oxidation' ,'mitotic cell cycle process' ,'DNA modification' ,'inflammatory response' ,'cholesterol homeostasis' ,'glutathione transferase activity' ,'autophagy' ,'fat cell differentiation' ,'triglyceride homeostasis' ,'lipid metabolic process' ,'necrotic cell death' ,'xenobiotic metabolic process' ,'negative regulation of superoxide dismutase activity' ,'triglyceride biosynthetic process' ,'cell migration' ,'cell redox homeostasis' ,'bile acid metabolic process' ,'nitric oxide biosynthetic process' ,'superoxide anion generation' ,'lactate dehydrogenase activity' ,'cell cycle' ,'amino acid metabolic process' ,'testosterone biosynthetic process' ,'activation of protein kinase B activity' ,'L-aspartate:2-oxoglutarate aminotransferase activity' ,'positive regulation of nitric oxide biosynthetic process' ,'cholesterol biosynthetic process' ,'protein import into nucleus' ,'positive regulation of protein import into nucleus' ,'wound healing, spreading of cells' ,'alkaline phosphatase activity' ,'positive regulation of cytosolic calcium ion concentration' ,'glucose homeostasis' ,'positive regulation of mitochondrial membrane potential' ,'fatty acid metabolic process' ,'cell chemotaxis' ,'positive regulation of vasoconstriction' ,'spermatogenesis' ,'positive regulation of neuron death' ,'positive regulation of superoxide dismutase activity' ,'collagen fibril organization' ,'cell differentiation' ,'histone H3-K9 acetylation' ,'mitochondrion organization' ,'positive regulation of protein localization to nucleus' ,'positive regulation of p38MAPK cascade' ,'ATP biosynthetic process' ,'metabolic process' ,'locomotion involved in locomotory behavior' ,'urate metabolic process' ,'dopamine metabolic process' ,'positive regulation of NF-kappaB transcription factor activity' ,'embryo development' ,'lipid biosynthetic process' ,'protein lipidation' ,'histamine secretion mediated by immunoglobulin' ,'glucose metabolic process' ,'negative regulation of mitochondrial membrane potential' ,'release of cytochrome c from mitochondria' ,'DNA catabolic process, endonucleolytic' ,'cellular respiration' ,'calcium ion homeostasis' ,'positive regulation of cell migration' ,'regulation of cellular metabolic process' ,'reactive nitrogen species metabolic process' ,'positive regulation of inflammatory response' ,'establishment of protein localization to plasma membrane' ,'lipid homeostasis' ,'response to antineoplastic agent' ,'glucose import' ,'urea metabolic process' ,'positive regulation of ERK1 and ERK2 cascade' ,'positive regulation of necrotic cell death' ,'memory' ,'negative regulation of glutathione peroxidase activity' ,'positive regulation of apoptotic DNA fragmentation' ,'mitochondrial depolarization' ,'G2/M transition of mitotic cell cycle' ,'cAMP metabolic process' ,'mitotic S phase' ,'hydrogen peroxide biosynthetic process' ,'positive regulation of superoxide anion generation' ,'positive regulation of autophagy' ,'protein modification process' ,'regulation of metabolic process' ,'cellular iron ion homeostasis' ,'lactate metabolic process' ,'DNA methylation on cytosine within a CG sequence' ,'apoptotic chromosome condensation' ,'serotonin metabolic process' ,'cellular lipid metabolic process' ,'positive regulation of glutathione peroxidase activity' ,'transepithelial transport' ,'positive regulation of lipid storage' ,'hydrogen peroxide metabolic process' ,'G0 to G1 transition' ,'positive regulation of collagen biosynthetic process' ,'iron ion homeostasis' ,'positive regulation of cytolysis' ,'gluconeogenesis' ,'micronucleus organization' ,'microglial cell activation' ,'positive regulation of autophagosome assembly' ,'positive regulation of NIK/NF-kappaB signaling' ,'calcium-mediated signaling' ,'positive regulation of cytokine production involved in inflammatory response' ,'cellular senescence' ,'neuron death' ,'macrophage activation' ,'cAMP biosynthetic process' ,'positive regulation of lipid catabolic process' ,'negative regulation of response to drug' ,'calcium ion import' ,'behavioral response to pain' ,'positive regulation of intracellular estrogen receptor signaling pathway' ,'regulation of bile acid metabolic process' ,'mitotic cell cycle' ,'autophagosome assembly' ,'prostaglandin metabolic process' ,'protein poly-ADP-ribosylation' ,'DNA methylation' ,'glycolytic process' ,'positive regulation of fat cell differentiation' ,'protein lipidation involved in autophagosome assembly' ,'estrogen metabolic process' ,'thyroid hormone metabolic process' ,'positive regulation of organ growth' ,'neutrophil migration' ,'NADH dehydrogenase (ubiquinone) activity' ,'prostaglandin biosynthetic process' ,'negative regulation of ATP biosynthetic process' ,'adipose tissue development' ,'larval development' ,'androgen metabolic process' ,'amino acid biosynthetic process' ,'aerobic respiration' ,'positive regulation of cellular extravasation' ,'positive regulation of neutrophil extravasation' ,'negative regulation of cell migration' ,'carbohydrate metabolic process' ,'positive regulation of JNK cascade' ,'positive regulation of neuron apoptotic process' ,'positive regulation of release of cytochrome c from mitochondria' ,'cognition' ,'vacuole organization' ,'renal sodium excretion' ,'osteoclast differentiation' ,'positive regulation of epithelial to mesenchymal transition' ,'glutathione derivative biosynthetic process' ,'arachidonic acid metabolic process' ,'neurotransmitter metabolic process' ,'stress granule assembly' ,'sperm motility' ,'hepatocyte differentiation' ,'AMP-activated protein kinase activity' ,'swimming behavior' ,'negative regulation of monooxygenase activity' ,'fatty acid homeostasis' ,'L-ascorbic acid metabolic process' ,'pyroptosis' ,'response to xenobiotic stimulus' ,'positive regulation of prostaglandin biosynthetic process' ) ) )#015 and ( cdr.chem_id, cdr.disease_id ) in ( select chem_id, disease_id from tetramer ) #015 and source_cd = 'C' #015 #015
Date: 2026-03-25 14:36:37 Database: ctdprd51 Application: User: load Remote:
Statement: select distinct geneTerm.acc_txt ,geneTerm.nm ,'gene' ,chemTerm.acc_txt ,chemTerm.nm ,'chemical' from pub2.GENE_CHEM_REFERENCE gcr ,pub2.TERM geneTerm ,pub2.TERM chemTerm where gcr.gene_id = geneTerm.id and gcr.chem_id = chemTerm.id and ( gcr.chem_id IN ( SELECT id FROM term WHERE nm IN ( -- genes 'NOG' ,'TNF' ,'INS' ,'CASP3' ,'IL1B' ,'IL6' ,'MAPK1' ,'NFE2L2' ,'MAPK3' ,'HMOX1' ,'AHR' ,'CYP1A1' ,'PTGS2' ,'PPARA' ,'BCL2' ,'CAT' ,'ESR1' ,'BAX' ,'NOS2' ,'RELA' ,'TGFB1' ,'TP53' ,'RORA' ,'AKT1' ,'CXCL8' ,'PPARG' ,'IFNG' ,'AR' ,'INS1' ,'ACHE' ,'PARP1' ,'CASP9' ,'CCL2' ,'NQO1' ,'CDKN1A' ,'CYP3A4' ,'MMP9' ,'SOD2' ,'APP' ,'VEGFA' ,'CYP1A2' ,'CCND1' ,'FOS' ,'NFKBIA' ,'SOD1' ,'HIF1A' ,'DDIT3' ,'ESR2' ,'JUN' ,'IL10' ,'AGT' ,'FGF2' ,'ABCB1' ,'CYP2E1' ,'GPT' ,'NR1I3' ,'CYP1B1' ,'CASP8' ,'NR1I2' ,'MAPK8' ,'EGF' ,'SIRT1' ,'GSR' ,'ACTA2' ,'MPO' ,'MYC' ,'ICAM1' ,'HSPA5' ,'MMP2' ,'G3BP1' ,'STAT3' ,'SQSTM1' ,'EGFR' ,'IL4' ,'NFKB1' ,'TLR4' ,'CASP1' ,'ALB' ,'RX3' ,'CTNNB1' ,'NOS3' ,'IGF1' ,'BCL2L1' ,'COL1A1' ,'GCLC' ,'NLRP3' ,'MAP1LC3B' ,'CDH1' ,'SREBF1' ,'GSK3B' ,'MTOR' ,'FASN' ,'PCNA' ,'ABCC2' ,'STAR' ,'PGR' ,'BDNF' ,'PPARGC1A' ,'CYP19A1' ,'GPX1' ,'H2AX' ,'LEP' ,'VIM' ,'IL18' ,'OGA' ,'GSTP1' ,'ADIPOQ' ,'BECN1' ,'IL1A' ,'TRP53' ,'FAS' ,'EGR1' ,'VCAM1' ,'NR1H4' ,'NR3C1' ,'APOE' ,'ABCG2' ,'FN1' ,'MYD88' ,'IL2' ,'CXCL1' ,'FSHB' ,'CREB1' ,'EDN1' ,'BIRC5' ,'SERPINE1' ,'ABCC1' ,'CNR1' ,'ABCB11' ,'CYCS' ,'CD36' ,'TIMP1' ,'GCLM' ,'CYP2C9' ,'TNFSF10' ,'LHB' ,'TH' ,'CXCL2' ,'FABP4' ,'BCHE' ,'ATF4' ,'PON1' ,'CYP11A1' ,'SPP1' ,'CASP7' ,'HMGCR' ,'MAPK9' ,'IL12B' ,'CYP17A1' ,'CCNB1' ,'CDKN1B' ,'CYP2B6' ,'RB1' ,'PRL' ,'MAPK14' ,'CEBPB' ,'CXCL10' ,'TIPARP' ,'GADD45A' ,'XBP1' ,'ATF3' ,'TRPV1' ,'CDK1' ,'MT1' ,'LPL' ,'GJA1' ,'MKI67' ,'MAPT' ,'ADRB2' ,'PTEN' ,'TXNRD1' ,'CPT1A' ,'KEAP1' ,'CYP7A1' ,'SLC2A1' ,'CCL5' ,'RPS6KB1' ,'ACACA' ,'KCNH2' ,'CEBPA' ,'STAT1' ,'INHBA' ,'MCL1' ,'BMP4' ,'CCN2' ,'SRC' ,'CSF2' ,'PTGS1' ,'EIF2AK3' ,'XDH' ,'SNCA' ,'ABCA1' ,'CDK2' ,'GPX4' ,'THRB' ,'CNR2' ,'DRD2' ,'LDLR' ,'GSTM1' ,'ABCC3' -- chemicals ,'bisphenol A' ,'Tetrachlorodibenzodioxin' ,'Benzo(a)pyrene' ,'Valproic Acid' ,'sodium arsenite' ,'Lipopolysaccharides' ,'Estradiol' ,'Acetaminophen' ,'4-(5-benzo(1,3)dioxol-5-yl-4-pyridin-2-yl-1H-imidazol-2-yl)benzamide' ,'dorsomorphin' ,'Particulate Matter' ,'Dexamethasone' ,'Cadmium Chloride' ,'titanium dioxide' ,'Aflatoxin B1' ,'Air Pollutants' ,'Cisplatin' ,'Tobacco Smoke Pollution' ,'Carbon Tetrachloride' ,'Resveratrol' ,'Doxorubicin' ,'pirinixic acid' ,'Ethinyl Estradiol' ,'Ozone' ,'Tretinoin' ,'Ethanol' ,'Dietary Fats' ,'Thioacetamide' ,'Cyclosporine' ,'Nanotubes, Carbon' ,'perfluorooctane sulfonic acid' ,'bisphenol S' ,'Folic Acid' ,'Vehicle Emissions' ,'1,2-Dimethylhydrazine' ,'Oxygen' ,'trichostatin A' ,'1-Methyl-3-isobutylxanthine' ,'Silicon Dioxide' ,'Indomethacin' ,'bisphenol F' ,'CGP 52608' ,'Atrazine' ,'Arsenic Trioxide' ,'methylmercuric chloride' ,'Cadmium' ,'Phenobarbital' ,'arsenite' ,'decamethrin' ,'Paraquat' ,'Tetradecanoylphorbol Acetate' ,'Quercetin' ,'Propylthiouracil' ,'Hydrogen Peroxide' ,'perfluorooctanoic acid' ,'Glucose' ,'Copper' ,'Smoke' ,'Chlorpyrifos' ,'triphenyl phosphate' ,'Gentamicins' ,'Diethylhexyl Phthalate' ,'Arsenic' ,'Rotenone' ,'Diethylnitrosamine' ,'Testosterone' ,'Acrylamide' ,'Phenylmercuric Acetate' ,'Dibutyl Phthalate' ,'Streptozocin' ,'Progesterone' ,'Plant Extracts' ,'Trichloroethylene' ,'aristolochic acid I' ,'Copper Sulfate' ,'cobaltous chloride' ,'Methyl Methanesulfonate' ,'Methamphetamine' ,'(+)-JQ1 compound' ,'jinfukang' ,'deoxynivalenol' ,'vinclozolin' ,'abrine' ,'Nickel' ,'Dioxins' ,'Genistein' ,'Fulvestrant' ,'Clofibrate' ,'Rosiglitazone' ,'Soot' ,'Cocaine' ,'Sunitinib' ,'Dronabinol' ,'Methotrexate' ,'JP8 aviation fuel' ,'triptonide' ,'entinostat' ,'2,2'',4,4''-tetrabromodiphenyl ether' ,'Tamoxifen' ,'Acetylcysteine' ,'1-Methyl-4-phenylpyridinium' ,'Calcitriol' ,'Acrolein' ,'di-n-butylphosphoric acid' ,'Thiram' ,'Endosulfan' ,'Zinc' ,'Ammonium Chloride' ,'Choline' ,'Ionomycin' ,'Formaldehyde' ,'tris(1,3-dichloro-2-propyl)phosphate' ,'Caffeine' ,'potassium chromate(VI)' ,'Methionine' ,'lead acetate' ,'perfluorooctanesulfonamide' ,'lipopolysaccharide, E coli O55-B5' ,'Flutamide' ,'Vorinostat' ,'furan' ,'Ivermectin' ,'Curcumin' ,'Lead' ,'Urethane' ,'Troglitazone' ,'S-(1,2-dichlorovinyl)cysteine' ,'Fluorouracil' ,'Fenretinide' ,'ethylene dichloride' ,'Dextran Sulfate' ,'hexabromocyclododecane' ,'Asbestos, Crocidolite' ,'7,8-Dihydro-7,8-dihydroxybenzo(a)pyrene 9,10-oxide' ,'sodium arsenate' ,'manganese chloride' ,'lipopolysaccharide, Escherichia coli O111 B4' ,'Cuprizone' ,'Methapyrilene' ,'Topotecan' ,'Isoproterenol' ,'epoxiconazole' ,'FR900359' ,'Methimazole' ,'Nicotine' ,'Antirheumatic Agents' ,'3,4,5,3'',4''-pentachlorobiphenyl' ,'methacrylaldehyde' ,'chromium hexavalent ion' ,'Triclosan' ,'Glyphosate' ,'N-Methyl-3,4-methylenedioxyamphetamine' ,'mono-(2-ethylhexyl)phthalate' ,'Aluminum' ,'Oxaliplatin' ,'T-2 Toxin' ,'Cellulose' ,'Decitabine' ,'acetamide' ,'Amitrole' ,'beta-lapachone' ,'Cyclophosphamide' ,'butyraldehyde' ,'Selenium' ,'alpha-pinene' ,'Temozolomide' ,'Amiodarone' ,'4,4''-diaminodiphenylmethane' ,'1,4-bis(2-(3,5-dichloropyridyloxy))benzene' ,'Panobinostat' ,'Diethylstilbestrol' ,'decabromobiphenyl ether' ,'Tunicamycin' ,'Carbamazepine' ,'Lactic Acid' ,'Sodium Fluoride' ,'Cannabidiol' ,'ochratoxin A' ,'epigallocatechin gallate' ,'1-Naphthylisothiocyanate' ,'fipronil' ,'Mercuric Chloride' ,'Coumestrol' ,'Paclitaxel' ,'bisphenol AF' ,'tert-Butylhydroperoxide' ,'dicrotophos' ,'sulforaphane' ,'Enzyme Inhibitors' ,'Dichlorodiphenyl Dichloroethylene' ,'1H,1H,10H,10H-perfluorodecane-1,10-diol' ,'Methoxychlor' ,'Thapsigargin' ,'Leflunomide' ,'Haloperidol' ,'2,4,5,2'',4'',5''-hexachlorobiphenyl' ,'9,10-Dimethyl-1,2-benzanthracene' ,'Silver' -- diseases ,'Chemical and Drug Induced Liver Injury' ,'Seizures' ,'Hypertension' ,'Hypotension' ,'Kidney Diseases' ,'Pain' ,'Acute Kidney Injury' ,'Breast Neoplasms' ,'Necrosis' ,'Weight Loss' ,'Inflammation' ,'Drug-Related Side Effects and Adverse Reactions' ,'Cocaine-Related Disorders' ,'Heart Failure' ,'Substance Withdrawal Syndrome' ,'Depressive Disorder' ,'Bradycardia' ,'Prostatic Neoplasms' ,'Hyperalgesia' ,'Prenatal Exposure Delayed Effects' ,'Myocardial Infarction' ,'Catalepsy' ,'Liver Cirrhosis, Experimental' ,'Hyperkinesis' ,'Edema' ,'Arrhythmias, Cardiac' ,'Carcinoma, Hepatocellular' ,'Dyskinesia, Drug-Induced' ,'Nausea' ,'Vomiting' ,'Lung Neoplasms' ,'Disease Models, Animal' ,'Hyperglycemia' ,'Hepatomegaly' ,'Weight Gain' ,'Cardiomyopathies' ,'Tachycardia' ,'Headache' ,'Bipolar Disorder' ,'Nerve Degeneration' ,'Proteinuria' ,'Diabetes Mellitus, Experimental' ,'Anemia' ,'Memory Disorders' ,'Tremor' ,'Peripheral Nervous System Diseases' ,'Fatty Liver' ,'Parkinson Disease' ,'Liver Neoplasms' ,'Status Epilepticus' ,'Schizophrenia' ,'Thrombocytopenia' ,'Liver Neoplasms, Experimental' ,'Cognition Disorders' ,'Heart Diseases' ,'Hemorrhage' ,'Arthritis, Rheumatoid' ,'Renal Insufficiency' ,'Fever' ,'Asthma' ,'Cholestasis' ,'Insulin Resistance' ,'Urinary Bladder Neoplasms' ,'Obesity' ,'Nervous System Diseases' ,'Liver Cirrhosis' ,'Poisoning' ,'Muscular Diseases' ,'Diarrhea' ,'Neoplasms, Experimental' ,'Colorectal Neoplasms' ,'Atrial Fibrillation' ,'Neutropenia' ,'Tachycardia, Ventricular' ,'Anxiety Disorders' ,'Colonic Neoplasms' ,'Epilepsy' ,'Myocardial Ischemia' ,'Stomach Neoplasms' ,'Amnesia' ,'Cardiomegaly' ,'Brain Injuries' ,'Parkinsonian Disorders' ,'Diabetes Mellitus, Type 2' ,'Neoplasm Metastasis' ,'Melanoma' ,'Neoplasm Invasiveness' ,'Torsades de Pointes' ,'Neoplasms' ,'Long QT Syndrome' ,'Ventricular Dysfunction, Left' ,'Cell Transformation, Neoplastic' ,'Thrombosis' ,'Pain, Postoperative' ,'Movement Disorders' ,'Hallucinations' ,'Dystonia' ,'Nephritis, Interstitial' ,'Stomach Ulcer' ,'Carcinoma, Non-Small-Cell Lung' ,'Pulmonary Fibrosis' ,'Brain Diseases' ,'Fibrosis' ,'Learning Disabilities' ,'Heart Arrest' ,'Drug Hypersensitivity' ,'Liver Diseases' ,'Psychoses, Substance-Induced' ,'Dizziness' ,'Cardiovascular Diseases' ,'Hypokalemia' ,'Ventricular Fibrillation' ,'Autistic Disorder' ,'Precursor Cell Lymphoblastic Leukemia-Lymphoma' ,'Myoclonus' ,'Hyperplasia' ,'Precancerous Conditions' ,'Multiple Myeloma' ,'Angina Pectoris' ,'Neurotoxicity Syndromes' ,'Liver Failure, Acute' ,'Leukemia, Promyelocytic, Acute' ,'Adenocarcinoma' ,'Basal Ganglia Diseases' ,'Cystitis' ,'Hepatitis B' ,'Hepatitis' ,'Dermatitis, Allergic Contact' ,'Leukemia, Myeloid, Acute' ,'Lung Injury' ,'HIV Infections' ,'Ataxia' ,'Ovarian Neoplasms' ,'Atherosclerosis' ,'Mammary Neoplasms, Experimental' ,'Abnormalities, Drug-Induced' ,'Confusion' ,'Staphylococcal Infections' ,'Autism Spectrum Disorder' ,'Stroke' ,'Leukopenia' ,'Testicular Diseases' ,'Reperfusion Injury' ,'Colitis' ,'Alzheimer Disease' ,'Carcinoma' ,'Glucose Intolerance' ,'Skin Neoplasms' ,'Anemia, Hemolytic' ,'Exanthema' ,'Hypertension, Pulmonary' ,'Muscle Rigidity' ,'Psychotic Disorders' ,'Hypercholesterolemia' ,'Angioedema' ,'Delirium' ,'Non-alcoholic Fatty Liver Disease' ,'Paralysis' ,'Apnea' ,'Pulmonary Edema' ,'Pneumonia' ,'Micronuclei, Chromosome-Defective' ,'Venous Thrombosis' ,'Parkinson Disease, Secondary' ,'Nephrotic Syndrome' ,'Muscle Weakness' ,'Pruritus' ,'Drug Eruptions' ,'Acute Lung Injury' ,'Hypothermia' ,'Pancreatic Neoplasms' ,'Diabetic Nephropathies' ,'Gastrointestinal Diseases' ,'Substance-Related Disorders' ,'Coma' ,'Epilepsy, Tonic-Clonic' ,'Craniofacial Abnormalities' ,'Stevens-Johnson Syndrome' ,'Migraine Disorders' ,'Vision Disorders' ,'Jaundice' ,'Paresthesia' ,'Carcinoma, Squamous Cell' ,'Fatigue' ,'Cerebral Hemorrhage' ,'Hypercalcemia' ,'Skin Diseases' ,'Hypotension, Orthostatic' ,'Urticaria' ,'Hematuria' ,'Erectile Dysfunction' ,'Colitis, Ulcerative' ,'Mammary Neoplasms, Animal' ,'Lung Diseases' ,'Rhabdomyolysis' ,'Oligospermia' ,'Depressive Disorder, Major' ,'Anemia, Aplastic' ,'Anorexia' ,'Hyperlipidemias' -- phenotypes ,'apoptotic process' ,'cell population proliferation' ,'cellular metabolic process' ,'lipid oxidation' ,'glutathione metabolic process' ,'reactive oxygen species metabolic process' ,'lipid catabolic process' ,'cell death' ,'detection of oxidative stress' ,'positive regulation of apoptotic process' ,'superoxide dismutase activity' ,'positive regulation of reactive oxygen species biosynthetic process' ,'positive regulation of cell death' ,'regulation of blood pressure' ,'reactive oxygen species biosynthetic process' ,'negative regulation of cell population proliferation' ,'regulation of mitochondrial membrane potential' ,'vasoconstriction' ,'glutathione biosynthetic process' ,'membrane lipid catabolic process' ,'glutathione peroxidase activity' ,'cellular response to DNA damage stimulus' ,'cholesterol metabolic process' ,'positive regulation of cell population proliferation' ,'triglyceride metabolic process' ,'response to oxidative stress' ,'regulation of heart rate' ,'negative regulation of mitotic cell cycle' ,'vasodilation' ,'ATP metabolic process' ,'cell growth' ,'cellular calcium ion homeostasis' ,'leukocyte migration involved in inflammatory response' ,'nitric oxide metabolic process' ,'creatinine metabolic process' ,'apoptotic DNA fragmentation' ,'lipid droplet formation' ,'ncRNA transcription' ,'protein oxidation' ,'mitotic cell cycle process' ,'DNA modification' ,'inflammatory response' ,'cholesterol homeostasis' ,'glutathione transferase activity' ,'autophagy' ,'fat cell differentiation' ,'triglyceride homeostasis' ,'lipid metabolic process' ,'necrotic cell death' ,'xenobiotic metabolic process' ,'negative regulation of superoxide dismutase activity' ,'triglyceride biosynthetic process' ,'cell migration' ,'cell redox homeostasis' ,'bile acid metabolic process' ,'nitric oxide biosynthetic process' ,'superoxide anion generation' ,'lactate dehydrogenase activity' ,'cell cycle' ,'amino acid metabolic process' ,'testosterone biosynthetic process' ,'activation of protein kinase B activity' ,'L-aspartate:2-oxoglutarate aminotransferase activity' ,'positive regulation of nitric oxide biosynthetic process' ,'cholesterol biosynthetic process' ,'protein import into nucleus' ,'positive regulation of protein import into nucleus' ,'wound healing, spreading of cells' ,'alkaline phosphatase activity' ,'positive regulation of cytosolic calcium ion concentration' ,'glucose homeostasis' ,'positive regulation of mitochondrial membrane potential' ,'fatty acid metabolic process' ,'cell chemotaxis' ,'positive regulation of vasoconstriction' ,'spermatogenesis' ,'positive regulation of neuron death' ,'positive regulation of superoxide dismutase activity' ,'collagen fibril organization' ,'cell differentiation' ,'histone H3-K9 acetylation' ,'mitochondrion organization' ,'positive regulation of protein localization to nucleus' ,'positive regulation of p38MAPK cascade' ,'ATP biosynthetic process' ,'metabolic process' ,'locomotion involved in locomotory behavior' ,'urate metabolic process' ,'dopamine metabolic process' ,'positive regulation of NF-kappaB transcription factor activity' ,'embryo development' ,'lipid biosynthetic process' ,'protein lipidation' ,'histamine secretion mediated by immunoglobulin' ,'glucose metabolic process' ,'negative regulation of mitochondrial membrane potential' ,'release of cytochrome c from mitochondria' ,'DNA catabolic process, endonucleolytic' ,'cellular respiration' ,'calcium ion homeostasis' ,'positive regulation of cell migration' ,'regulation of cellular metabolic process' ,'reactive nitrogen species metabolic process' ,'positive regulation of inflammatory response' ,'establishment of protein localization to plasma membrane' ,'lipid homeostasis' ,'response to antineoplastic agent' ,'glucose import' ,'urea metabolic process' ,'positive regulation of ERK1 and ERK2 cascade' ,'positive regulation of necrotic cell death' ,'memory' ,'negative regulation of glutathione peroxidase activity' ,'positive regulation of apoptotic DNA fragmentation' ,'mitochondrial depolarization' ,'G2/M transition of mitotic cell cycle' ,'cAMP metabolic process' ,'mitotic S phase' ,'hydrogen peroxide biosynthetic process' ,'positive regulation of superoxide anion generation' ,'positive regulation of autophagy' ,'protein modification process' ,'regulation of metabolic process' ,'cellular iron ion homeostasis' ,'lactate metabolic process' ,'DNA methylation on cytosine within a CG sequence' ,'apoptotic chromosome condensation' ,'serotonin metabolic process' ,'cellular lipid metabolic process' ,'positive regulation of glutathione peroxidase activity' ,'transepithelial transport' ,'positive regulation of lipid storage' ,'hydrogen peroxide metabolic process' ,'G0 to G1 transition' ,'positive regulation of collagen biosynthetic process' ,'iron ion homeostasis' ,'positive regulation of cytolysis' ,'gluconeogenesis' ,'micronucleus organization' ,'microglial cell activation' ,'positive regulation of autophagosome assembly' ,'positive regulation of NIK/NF-kappaB signaling' ,'calcium-mediated signaling' ,'positive regulation of cytokine production involved in inflammatory response' ,'cellular senescence' ,'neuron death' ,'macrophage activation' ,'cAMP biosynthetic process' ,'positive regulation of lipid catabolic process' ,'negative regulation of response to drug' ,'calcium ion import' ,'behavioral response to pain' ,'positive regulation of intracellular estrogen receptor signaling pathway' ,'regulation of bile acid metabolic process' ,'mitotic cell cycle' ,'autophagosome assembly' ,'prostaglandin metabolic process' ,'protein poly-ADP-ribosylation' ,'DNA methylation' ,'glycolytic process' ,'positive regulation of fat cell differentiation' ,'protein lipidation involved in autophagosome assembly' ,'estrogen metabolic process' ,'thyroid hormone metabolic process' ,'positive regulation of organ growth' ,'neutrophil migration' ,'NADH dehydrogenase (ubiquinone) activity' ,'prostaglandin biosynthetic process' ,'negative regulation of ATP biosynthetic process' ,'adipose tissue development' ,'larval development' ,'androgen metabolic process' ,'amino acid biosynthetic process' ,'aerobic respiration' ,'positive regulation of cellular extravasation' ,'positive regulation of neutrophil extravasation' ,'negative regulation of cell migration' ,'carbohydrate metabolic process' ,'positive regulation of JNK cascade' ,'positive regulation of neuron apoptotic process' ,'positive regulation of release of cytochrome c from mitochondria' ,'cognition' ,'vacuole organization' ,'renal sodium excretion' ,'osteoclast differentiation' ,'positive regulation of epithelial to mesenchymal transition' ,'glutathione derivative biosynthetic process' ,'arachidonic acid metabolic process' ,'neurotransmitter metabolic process' ,'stress granule assembly' ,'sperm motility' ,'hepatocyte differentiation' ,'AMP-activated protein kinase activity' ,'swimming behavior' ,'negative regulation of monooxygenase activity' ,'fatty acid homeostasis' ,'L-ascorbic acid metabolic process' ,'pyroptosis' ,'response to xenobiotic stimulus' ,'positive regulation of prostaglandin biosynthetic process' ) ) and gcr.gene_id IN ( SELECT id FROM term WHERE nm IN ( -- genes 'NOG' ,'TNF' ,'INS' ,'CASP3' ,'IL1B' ,'IL6' ,'MAPK1' ,'NFE2L2' ,'MAPK3' ,'HMOX1' ,'AHR' ,'CYP1A1' ,'PTGS2' ,'PPARA' ,'BCL2' ,'CAT' ,'ESR1' ,'BAX' ,'NOS2' ,'RELA' ,'TGFB1' ,'TP53' ,'RORA' ,'AKT1' ,'CXCL8' ,'PPARG' ,'IFNG' ,'AR' ,'INS1' ,'ACHE' ,'PARP1' ,'CASP9' ,'CCL2' ,'NQO1' ,'CDKN1A' ,'CYP3A4' ,'MMP9' ,'SOD2' ,'APP' ,'VEGFA' ,'CYP1A2' ,'CCND1' ,'FOS' ,'NFKBIA' ,'SOD1' ,'HIF1A' ,'DDIT3' ,'ESR2' ,'JUN' ,'IL10' ,'AGT' ,'FGF2' ,'ABCB1' ,'CYP2E1' ,'GPT' ,'NR1I3' ,'CYP1B1' ,'CASP8' ,'NR1I2' ,'MAPK8' ,'EGF' ,'SIRT1' ,'GSR' ,'ACTA2' ,'MPO' ,'MYC' ,'ICAM1' ,'HSPA5' ,'MMP2' ,'G3BP1' ,'STAT3' ,'SQSTM1' ,'EGFR' ,'IL4' ,'NFKB1' ,'TLR4' ,'CASP1' ,'ALB' ,'RX3' ,'CTNNB1' ,'NOS3' ,'IGF1' ,'BCL2L1' ,'COL1A1' ,'GCLC' ,'NLRP3' ,'MAP1LC3B' ,'CDH1' ,'SREBF1' ,'GSK3B' ,'MTOR' ,'FASN' ,'PCNA' ,'ABCC2' ,'STAR' ,'PGR' ,'BDNF' ,'PPARGC1A' ,'CYP19A1' ,'GPX1' ,'H2AX' ,'LEP' ,'VIM' ,'IL18' ,'OGA' ,'GSTP1' ,'ADIPOQ' ,'BECN1' ,'IL1A' ,'TRP53' ,'FAS' ,'EGR1' ,'VCAM1' ,'NR1H4' ,'NR3C1' ,'APOE' ,'ABCG2' ,'FN1' ,'MYD88' ,'IL2' ,'CXCL1' ,'FSHB' ,'CREB1' ,'EDN1' ,'BIRC5' ,'SERPINE1' ,'ABCC1' ,'CNR1' ,'ABCB11' ,'CYCS' ,'CD36' ,'TIMP1' ,'GCLM' ,'CYP2C9' ,'TNFSF10' ,'LHB' ,'TH' ,'CXCL2' ,'FABP4' ,'BCHE' ,'ATF4' ,'PON1' ,'CYP11A1' ,'SPP1' ,'CASP7' ,'HMGCR' ,'MAPK9' ,'IL12B' ,'CYP17A1' ,'CCNB1' ,'CDKN1B' ,'CYP2B6' ,'RB1' ,'PRL' ,'MAPK14' ,'CEBPB' ,'CXCL10' ,'TIPARP' ,'GADD45A' ,'XBP1' ,'ATF3' ,'TRPV1' ,'CDK1' ,'MT1' ,'LPL' ,'GJA1' ,'MKI67' ,'MAPT' ,'ADRB2' ,'PTEN' ,'TXNRD1' ,'CPT1A' ,'KEAP1' ,'CYP7A1' ,'SLC2A1' ,'CCL5' ,'RPS6KB1' ,'ACACA' ,'KCNH2' ,'CEBPA' ,'STAT1' ,'INHBA' ,'MCL1' ,'BMP4' ,'CCN2' ,'SRC' ,'CSF2' ,'PTGS1' ,'EIF2AK3' ,'XDH' ,'SNCA' ,'ABCA1' ,'CDK2' ,'GPX4' ,'THRB' ,'CNR2' ,'DRD2' ,'LDLR' ,'GSTM1' ,'ABCC3' -- chemicals ,'bisphenol A' ,'Tetrachlorodibenzodioxin' ,'Benzo(a)pyrene' ,'Valproic Acid' ,'sodium arsenite' ,'Lipopolysaccharides' ,'Estradiol' ,'Acetaminophen' ,'4-(5-benzo(1,3)dioxol-5-yl-4-pyridin-2-yl-1H-imidazol-2-yl)benzamide' ,'dorsomorphin' ,'Particulate Matter' ,'Dexamethasone' ,'Cadmium Chloride' ,'titanium dioxide' ,'Aflatoxin B1' ,'Air Pollutants' ,'Cisplatin' ,'Tobacco Smoke Pollution' ,'Carbon Tetrachloride' ,'Resveratrol' ,'Doxorubicin' ,'pirinixic acid' ,'Ethinyl Estradiol' ,'Ozone' ,'Tretinoin' ,'Ethanol' ,'Dietary Fats' ,'Thioacetamide' ,'Cyclosporine' ,'Nanotubes, Carbon' ,'perfluorooctane sulfonic acid' ,'bisphenol S' ,'Folic Acid' ,'Vehicle Emissions' ,'1,2-Dimethylhydrazine' ,'Oxygen' ,'trichostatin A' ,'1-Methyl-3-isobutylxanthine' ,'Silicon Dioxide' ,'Indomethacin' ,'bisphenol F' ,'CGP 52608' ,'Atrazine' ,'Arsenic Trioxide' ,'methylmercuric chloride' ,'Cadmium' ,'Phenobarbital' ,'arsenite' ,'decamethrin' ,'Paraquat' ,'Tetradecanoylphorbol Acetate' ,'Quercetin' ,'Propylthiouracil' ,'Hydrogen Peroxide' ,'perfluorooctanoic acid' ,'Glucose' ,'Copper' ,'Smoke' ,'Chlorpyrifos' ,'triphenyl phosphate' ,'Gentamicins' ,'Diethylhexyl Phthalate' ,'Arsenic' ,'Rotenone' ,'Diethylnitrosamine' ,'Testosterone' ,'Acrylamide' ,'Phenylmercuric Acetate' ,'Dibutyl Phthalate' ,'Streptozocin' ,'Progesterone' ,'Plant Extracts' ,'Trichloroethylene' ,'aristolochic acid I' ,'Copper Sulfate' ,'cobaltous chloride' ,'Methyl Methanesulfonate' ,'Methamphetamine' ,'(+)-JQ1 compound' ,'jinfukang' ,'deoxynivalenol' ,'vinclozolin' ,'abrine' ,'Nickel' ,'Dioxins' ,'Genistein' ,'Fulvestrant' ,'Clofibrate' ,'Rosiglitazone' ,'Soot' ,'Cocaine' ,'Sunitinib' ,'Dronabinol' ,'Methotrexate' ,'JP8 aviation fuel' ,'triptonide' ,'entinostat' ,'2,2'',4,4''-tetrabromodiphenyl ether' ,'Tamoxifen' ,'Acetylcysteine' ,'1-Methyl-4-phenylpyridinium' ,'Calcitriol' ,'Acrolein' ,'di-n-butylphosphoric acid' ,'Thiram' ,'Endosulfan' ,'Zinc' ,'Ammonium Chloride' ,'Choline' ,'Ionomycin' ,'Formaldehyde' ,'tris(1,3-dichloro-2-propyl)phosphate' ,'Caffeine' ,'potassium chromate(VI)' ,'Methionine' ,'lead acetate' ,'perfluorooctanesulfonamide' ,'lipopolysaccharide, E coli O55-B5' ,'Flutamide' ,'Vorinostat' ,'furan' ,'Ivermectin' ,'Curcumin' ,'Lead' ,'Urethane' ,'Troglitazone' ,'S-(1,2-dichlorovinyl)cysteine' ,'Fluorouracil' ,'Fenretinide' ,'ethylene dichloride' ,'Dextran Sulfate' ,'hexabromocyclododecane' ,'Asbestos, Crocidolite' ,'7,8-Dihydro-7,8-dihydroxybenzo(a)pyrene 9,10-oxide' ,'sodium arsenate' ,'manganese chloride' ,'lipopolysaccharide, Escherichia coli O111 B4' ,'Cuprizone' ,'Methapyrilene' ,'Topotecan' ,'Isoproterenol' ,'epoxiconazole' ,'FR900359' ,'Methimazole' ,'Nicotine' ,'Antirheumatic Agents' ,'3,4,5,3'',4''-pentachlorobiphenyl' ,'methacrylaldehyde' ,'chromium hexavalent ion' ,'Triclosan' ,'Glyphosate' ,'N-Methyl-3,4-methylenedioxyamphetamine' ,'mono-(2-ethylhexyl)phthalate' ,'Aluminum' ,'Oxaliplatin' ,'T-2 Toxin' ,'Cellulose' ,'Decitabine' ,'acetamide' ,'Amitrole' ,'beta-lapachone' ,'Cyclophosphamide' ,'butyraldehyde' ,'Selenium' ,'alpha-pinene' ,'Temozolomide' ,'Amiodarone' ,'4,4''-diaminodiphenylmethane' ,'1,4-bis(2-(3,5-dichloropyridyloxy))benzene' ,'Panobinostat' ,'Diethylstilbestrol' ,'decabromobiphenyl ether' ,'Tunicamycin' ,'Carbamazepine' ,'Lactic Acid' ,'Sodium Fluoride' ,'Cannabidiol' ,'ochratoxin A' ,'epigallocatechin gallate' ,'1-Naphthylisothiocyanate' ,'fipronil' ,'Mercuric Chloride' ,'Coumestrol' ,'Paclitaxel' ,'bisphenol AF' ,'tert-Butylhydroperoxide' ,'dicrotophos' ,'sulforaphane' ,'Enzyme Inhibitors' ,'Dichlorodiphenyl Dichloroethylene' ,'1H,1H,10H,10H-perfluorodecane-1,10-diol' ,'Methoxychlor' ,'Thapsigargin' ,'Leflunomide' ,'Haloperidol' ,'2,4,5,2'',4'',5''-hexachlorobiphenyl' ,'9,10-Dimethyl-1,2-benzanthracene' ,'Silver' -- diseases ,'Chemical and Drug Induced Liver Injury' ,'Seizures' ,'Hypertension' ,'Hypotension' ,'Kidney Diseases' ,'Pain' ,'Acute Kidney Injury' ,'Breast Neoplasms' ,'Necrosis' ,'Weight Loss' ,'Inflammation' ,'Drug-Related Side Effects and Adverse Reactions' ,'Cocaine-Related Disorders' ,'Heart Failure' ,'Substance Withdrawal Syndrome' ,'Depressive Disorder' ,'Bradycardia' ,'Prostatic Neoplasms' ,'Hyperalgesia' ,'Prenatal Exposure Delayed Effects' ,'Myocardial Infarction' ,'Catalepsy' ,'Liver Cirrhosis, Experimental' ,'Hyperkinesis' ,'Edema' ,'Arrhythmias, Cardiac' ,'Carcinoma, Hepatocellular' ,'Dyskinesia, Drug-Induced' ,'Nausea' ,'Vomiting' ,'Lung Neoplasms' ,'Disease Models, Animal' ,'Hyperglycemia' ,'Hepatomegaly' ,'Weight Gain' ,'Cardiomyopathies' ,'Tachycardia' ,'Headache' ,'Bipolar Disorder' ,'Nerve Degeneration' ,'Proteinuria' ,'Diabetes Mellitus, Experimental' ,'Anemia' ,'Memory Disorders' ,'Tremor' ,'Peripheral Nervous System Diseases' ,'Fatty Liver' ,'Parkinson Disease' ,'Liver Neoplasms' ,'Status Epilepticus' ,'Schizophrenia' ,'Thrombocytopenia' ,'Liver Neoplasms, Experimental' ,'Cognition Disorders' ,'Heart Diseases' ,'Hemorrhage' ,'Arthritis, Rheumatoid' ,'Renal Insufficiency' ,'Fever' ,'Asthma' ,'Cholestasis' ,'Insulin Resistance' ,'Urinary Bladder Neoplasms' ,'Obesity' ,'Nervous System Diseases' ,'Liver Cirrhosis' ,'Poisoning' ,'Muscular Diseases' ,'Diarrhea' ,'Neoplasms, Experimental' ,'Colorectal Neoplasms' ,'Atrial Fibrillation' ,'Neutropenia' ,'Tachycardia, Ventricular' ,'Anxiety Disorders' ,'Colonic Neoplasms' ,'Epilepsy' ,'Myocardial Ischemia' ,'Stomach Neoplasms' ,'Amnesia' ,'Cardiomegaly' ,'Brain Injuries' ,'Parkinsonian Disorders' ,'Diabetes Mellitus, Type 2' ,'Neoplasm Metastasis' ,'Melanoma' ,'Neoplasm Invasiveness' ,'Torsades de Pointes' ,'Neoplasms' ,'Long QT Syndrome' ,'Ventricular Dysfunction, Left' ,'Cell Transformation, Neoplastic' ,'Thrombosis' ,'Pain, Postoperative' ,'Movement Disorders' ,'Hallucinations' ,'Dystonia' ,'Nephritis, Interstitial' ,'Stomach Ulcer' ,'Carcinoma, Non-Small-Cell Lung' ,'Pulmonary Fibrosis' ,'Brain Diseases' ,'Fibrosis' ,'Learning Disabilities' ,'Heart Arrest' ,'Drug Hypersensitivity' ,'Liver Diseases' ,'Psychoses, Substance-Induced' ,'Dizziness' ,'Cardiovascular Diseases' ,'Hypokalemia' ,'Ventricular Fibrillation' ,'Autistic Disorder' ,'Precursor Cell Lymphoblastic Leukemia-Lymphoma' ,'Myoclonus' ,'Hyperplasia' ,'Precancerous Conditions' ,'Multiple Myeloma' ,'Angina Pectoris' ,'Neurotoxicity Syndromes' ,'Liver Failure, Acute' ,'Leukemia, Promyelocytic, Acute' ,'Adenocarcinoma' ,'Basal Ganglia Diseases' ,'Cystitis' ,'Hepatitis B' ,'Hepatitis' ,'Dermatitis, Allergic Contact' ,'Leukemia, Myeloid, Acute' ,'Lung Injury' ,'HIV Infections' ,'Ataxia' ,'Ovarian Neoplasms' ,'Atherosclerosis' ,'Mammary Neoplasms, Experimental' ,'Abnormalities, Drug-Induced' ,'Confusion' ,'Staphylococcal Infections' ,'Autism Spectrum Disorder' ,'Stroke' ,'Leukopenia' ,'Testicular Diseases' ,'Reperfusion Injury' ,'Colitis' ,'Alzheimer Disease' ,'Carcinoma' ,'Glucose Intolerance' ,'Skin Neoplasms' ,'Anemia, Hemolytic' ,'Exanthema' ,'Hypertension, Pulmonary' ,'Muscle Rigidity' ,'Psychotic Disorders' ,'Hypercholesterolemia' ,'Angioedema' ,'Delirium' ,'Non-alcoholic Fatty Liver Disease' ,'Paralysis' ,'Apnea' ,'Pulmonary Edema' ,'Pneumonia' ,'Micronuclei, Chromosome-Defective' ,'Venous Thrombosis' ,'Parkinson Disease, Secondary' ,'Nephrotic Syndrome' ,'Muscle Weakness' ,'Pruritus' ,'Drug Eruptions' ,'Acute Lung Injury' ,'Hypothermia' ,'Pancreatic Neoplasms' ,'Diabetic Nephropathies' ,'Gastrointestinal Diseases' ,'Substance-Related Disorders' ,'Coma' ,'Epilepsy, Tonic-Clonic' ,'Craniofacial Abnormalities' ,'Stevens-Johnson Syndrome' ,'Migraine Disorders' ,'Vision Disorders' ,'Jaundice' ,'Paresthesia' ,'Carcinoma, Squamous Cell' ,'Fatigue' ,'Cerebral Hemorrhage' ,'Hypercalcemia' ,'Skin Diseases' ,'Hypotension, Orthostatic' ,'Urticaria' ,'Hematuria' ,'Erectile Dysfunction' ,'Colitis, Ulcerative' ,'Mammary Neoplasms, Animal' ,'Lung Diseases' ,'Rhabdomyolysis' ,'Oligospermia' ,'Depressive Disorder, Major' ,'Anemia, Aplastic' ,'Anorexia' ,'Hyperlipidemias' -- phenotypes ,'apoptotic process' ,'cell population proliferation' ,'cellular metabolic process' ,'lipid oxidation' ,'glutathione metabolic process' ,'reactive oxygen species metabolic process' ,'lipid catabolic process' ,'cell death' ,'detection of oxidative stress' ,'positive regulation of apoptotic process' ,'superoxide dismutase activity' ,'positive regulation of reactive oxygen species biosynthetic process' ,'positive regulation of cell death' ,'regulation of blood pressure' ,'reactive oxygen species biosynthetic process' ,'negative regulation of cell population proliferation' ,'regulation of mitochondrial membrane potential' ,'vasoconstriction' ,'glutathione biosynthetic process' ,'membrane lipid catabolic process' ,'glutathione peroxidase activity' ,'cellular response to DNA damage stimulus' ,'cholesterol metabolic process' ,'positive regulation of cell population proliferation' ,'triglyceride metabolic process' ,'response to oxidative stress' ,'regulation of heart rate' ,'negative regulation of mitotic cell cycle' ,'vasodilation' ,'ATP metabolic process' ,'cell growth' ,'cellular calcium ion homeostasis' ,'leukocyte migration involved in inflammatory response' ,'nitric oxide metabolic process' ,'creatinine metabolic process' ,'apoptotic DNA fragmentation' ,'lipid droplet formation' ,'ncRNA transcription' ,'protein oxidation' ,'mitotic cell cycle process' ,'DNA modification' ,'inflammatory response' ,'cholesterol homeostasis' ,'glutathione transferase activity' ,'autophagy' ,'fat cell differentiation' ,'triglyceride homeostasis' ,'lipid metabolic process' ,'necrotic cell death' ,'xenobiotic metabolic process' ,'negative regulation of superoxide dismutase activity' ,'triglyceride biosynthetic process' ,'cell migration' ,'cell redox homeostasis' ,'bile acid metabolic process' ,'nitric oxide biosynthetic process' ,'superoxide anion generation' ,'lactate dehydrogenase activity' ,'cell cycle' ,'amino acid metabolic process' ,'testosterone biosynthetic process' ,'activation of protein kinase B activity' ,'L-aspartate:2-oxoglutarate aminotransferase activity' ,'positive regulation of nitric oxide biosynthetic process' ,'cholesterol biosynthetic process' ,'protein import into nucleus' ,'positive regulation of protein import into nucleus' ,'wound healing, spreading of cells' ,'alkaline phosphatase activity' ,'positive regulation of cytosolic calcium ion concentration' ,'glucose homeostasis' ,'positive regulation of mitochondrial membrane potential' ,'fatty acid metabolic process' ,'cell chemotaxis' ,'positive regulation of vasoconstriction' ,'spermatogenesis' ,'positive regulation of neuron death' ,'positive regulation of superoxide dismutase activity' ,'collagen fibril organization' ,'cell differentiation' ,'histone H3-K9 acetylation' ,'mitochondrion organization' ,'positive regulation of protein localization to nucleus' ,'positive regulation of p38MAPK cascade' ,'ATP biosynthetic process' ,'metabolic process' ,'locomotion involved in locomotory behavior' ,'urate metabolic process' ,'dopamine metabolic process' ,'positive regulation of NF-kappaB transcription factor activity' ,'embryo development' ,'lipid biosynthetic process' ,'protein lipidation' ,'histamine secretion mediated by immunoglobulin' ,'glucose metabolic process' ,'negative regulation of mitochondrial membrane potential' ,'release of cytochrome c from mitochondria' ,'DNA catabolic process, endonucleolytic' ,'cellular respiration' ,'calcium ion homeostasis' ,'positive regulation of cell migration' ,'regulation of cellular metabolic process' ,'reactive nitrogen species metabolic process' ,'positive regulation of inflammatory response' ,'establishment of protein localization to plasma membrane' ,'lipid homeostasis' ,'response to antineoplastic agent' ,'glucose import' ,'urea metabolic process' ,'positive regulation of ERK1 and ERK2 cascade' ,'positive regulation of necrotic cell death' ,'memory' ,'negative regulation of glutathione peroxidase activity' ,'positive regulation of apoptotic DNA fragmentation' ,'mitochondrial depolarization' ,'G2/M transition of mitotic cell cycle' ,'cAMP metabolic process' ,'mitotic S phase' ,'hydrogen peroxide biosynthetic process' ,'positive regulation of superoxide anion generation' ,'positive regulation of autophagy' ,'protein modification process' ,'regulation of metabolic process' ,'cellular iron ion homeostasis' ,'lactate metabolic process' ,'DNA methylation on cytosine within a CG sequence' ,'apoptotic chromosome condensation' ,'serotonin metabolic process' ,'cellular lipid metabolic process' ,'positive regulation of glutathione peroxidase activity' ,'transepithelial transport' ,'positive regulation of lipid storage' ,'hydrogen peroxide metabolic process' ,'G0 to G1 transition' ,'positive regulation of collagen biosynthetic process' ,'iron ion homeostasis' ,'positive regulation of cytolysis' ,'gluconeogenesis' ,'micronucleus organization' ,'microglial cell activation' ,'positive regulation of autophagosome assembly' ,'positive regulation of NIK/NF-kappaB signaling' ,'calcium-mediated signaling' ,'positive regulation of cytokine production involved in inflammatory response' ,'cellular senescence' ,'neuron death' ,'macrophage activation' ,'cAMP biosynthetic process' ,'positive regulation of lipid catabolic process' ,'negative regulation of response to drug' ,'calcium ion import' ,'behavioral response to pain' ,'positive regulation of intracellular estrogen receptor signaling pathway' ,'regulation of bile acid metabolic process' ,'mitotic cell cycle' ,'autophagosome assembly' ,'prostaglandin metabolic process' ,'protein poly-ADP-ribosylation' ,'DNA methylation' ,'glycolytic process' ,'positive regulation of fat cell differentiation' ,'protein lipidation involved in autophagosome assembly' ,'estrogen metabolic process' ,'thyroid hormone metabolic process' ,'positive regulation of organ growth' ,'neutrophil migration' ,'NADH dehydrogenase (ubiquinone) activity' ,'prostaglandin biosynthetic process' ,'negative regulation of ATP biosynthetic process' ,'adipose tissue development' ,'larval development' ,'androgen metabolic process' ,'amino acid biosynthetic process' ,'aerobic respiration' ,'positive regulation of cellular extravasation' ,'positive regulation of neutrophil extravasation' ,'negative regulation of cell migration' ,'carbohydrate metabolic process' ,'positive regulation of JNK cascade' ,'positive regulation of neuron apoptotic process' ,'positive regulation of release of cytochrome c from mitochondria' ,'cognition' ,'vacuole organization' ,'renal sodium excretion' ,'osteoclast differentiation' ,'positive regulation of epithelial to mesenchymal transition' ,'glutathione derivative biosynthetic process' ,'arachidonic acid metabolic process' ,'neurotransmitter metabolic process' ,'stress granule assembly' ,'sperm motility' ,'hepatocyte differentiation' ,'AMP-activated protein kinase activity' ,'swimming behavior' ,'negative regulation of monooxygenase activity' ,'fatty acid homeostasis' ,'L-ascorbic acid metabolic process' ,'pyroptosis' ,'response to xenobiotic stimulus' ,'positive regulation of prostaglandin biosynthetic process' ) ) ) and ( gcr.chem_id, gcr.gene_id ) in ( select chem_id, gene_id from tetramer )
Date: 2026-03-25 14:49:43 Database: ctdprd51 Application: User: load Remote:
4 2 LOG: could not receive data from client: Connection timed out
Times Reported Most Frequent Error / Event #4
Day Hour Count Mar 25 20 2 5 2 ERROR: syntax error at or near "..."
Times Reported Most Frequent Error / Event #5
Day Hour Count Mar 25 12 2 - ERROR: syntax error at or near "select" at character 250
- ERROR: syntax error at or near "from" at character 17
Statement: select distinct source_cd from pub2.chem_disease_reference cdr where disease_id in ( select descendant_object_id from pub2.DAG_PATH where ancestor_object_id = ( select id from pub2.term where nm = 'Amyotrophic Lateral Sclerosis' ) ) select distinct nm from pub2.term where id in ( select descendant_object_id from pub2.DAG_PATH where ancestor_object_id = ( select id from pub2.term where nm = 'Amyotrophic Lateral Sclerosis' ) )
Date: 2026-03-25 12:43:33
Statement: select * from from pub2.chem_disease_reference where chem_id = 1297650 and disease_id = 2122274 and source_cd = 'I'
Date: 2026-03-25 12:48:19 Database: ctdprd51 Application: pgAdmin 4 - CONN:9784952 User: load Remote:
6 2 ERROR: column "..." must appear in the GROUP BY clause or be used in an aggregate function
Times Reported Most Frequent Error / Event #6
Day Hour Count Mar 25 12 2 - ERROR: column "cdr.id" must appear in the GROUP BY clause or be used in an aggregate function at character 8
- ERROR: column "cdr.id" must appear in the GROUP BY clause or be used in an aggregate function at character 8
Statement: select * --count( distinct( chem_id, disease_id, source_cd ) ) from pub2.chem_disease_reference cdr where disease_id in ( select descendant_object_id from pub2.DAG_PATH where ancestor_object_id = ( select id from pub2.term where nm = 'Amyotrophic Lateral Sclerosis' ) ) group by chem_id, disease_id having count(*) > 1 limit 100
Date: 2026-03-25 12:45:16
Statement: select * --count( distinct( chem_id, disease_id, source_cd ) ) from pub2.chem_disease_reference cdr where disease_id in ( select descendant_object_id from pub2.DAG_PATH where ancestor_object_id = ( select id from pub2.term where nm = 'Amyotrophic Lateral Sclerosis' ) ) group by chem_id, disease_id, source_cd having count(*) > 1 limit 100
Date: 2026-03-25 12:45:39