In order to generate a more inclusive dataset of Pseudomonas genes mapped to putative in-paralogs and putative orthologs in other Pseudomonas species/strains, we developed a Pseudomonas Orthologous Groups classification system.
To generate ortholog groups, pair-wise DIAMOND searches were run on all genomes in the database to find reciprocal best hits (RBHs) for each gene. These analyses often resulted in multiple candidate genes for RBH status, which were narrowed down by examining the similarity between the query's flanking genes and the hit's flanking genes. If two candidate genes were directly adjacent, they where both accepted as RBHs that involve putative in-parology.
Pairwise intra-genome DIAMOND searches were also performed to acquire in-paralog information (i.e. gene duplications occurring after species divergence). If two genes in one genome were reciprocally more similar to each other than to any gene in the other genomes, the two genes were designated putative in-paralogs. Ortholog groups are built by starting with a seed gene and then adding all genes to which there is a RBH or in-paralog relationship.
Every new gene added to an ortholog group was then treated as a seed gene and the addition process was repeated until all qualifying genes had been added. The result was the development of orthologous groups, specifically generated for Pseudomonas species genomes, which can be used to sort search results.
Pseudomonas Ortholog Group POG001096
| Strain | Locus Tag | Description | Same-Strain Members | Fragment ? | |
|---|---|---|---|---|---|
| Pseudomonas aeruginosa BWHPSA016 | Q029_03067 |
regulatory protein rhlR
|
5 same-strain members: Q029_00468 Q029_00762 Q029_01259 Q029_03066 Q029_03067 |
|
|
| Pseudomonas aeruginosa BWHPSA016 | Q029_00468 |
LuxR family transcriptional regulatory, chaperone HchA-associated
|
5 same-strain members: Q029_00468 Q029_00762 Q029_01259 Q029_03066 Q029_03067 |
|
|
| Pseudomonas aeruginosa BWHPSA016 | Q029_00762 |
transcriptional activator protein lasR
|
5 same-strain members: Q029_00468 Q029_00762 Q029_01259 Q029_03066 Q029_03067 |
|
|
| Pseudomonas aeruginosa BWHPSA016 | Q029_01259 |
LuxR family transcriptional regulator
|
5 same-strain members: Q029_00468 Q029_00762 Q029_01259 Q029_03066 Q029_03067 |
|
|
| Pseudomonas aeruginosa BWHPSA017 | Q030_00427 |
LuxR family transcriptional regulator
|
3 same-strain members: Q030_00427 Q030_01252 Q030_04254 |
|
|
| Pseudomonas aeruginosa BWHPSA017 | Q030_01252 |
LuxR family transcriptional regulatory, chaperone HchA-associated
|
3 same-strain members: Q030_00427 Q030_01252 Q030_04254 |
|
|
| Pseudomonas aeruginosa BWHPSA017 | Q030_04254 |
LuxR family transcriptional regulator
|
3 same-strain members: Q030_00427 Q030_01252 Q030_04254 |
|
|
| Pseudomonas aeruginosa BWHPSA018 | Q031_00842 |
LuxR family transcriptional regulator
|
3 same-strain members: Q031_00842 Q031_01614 Q031_03304 |
|
|
| Pseudomonas aeruginosa BWHPSA018 | Q031_01614 |
LuxR family transcriptional regulatory, chaperone HchA-associated
|
3 same-strain members: Q031_00842 Q031_01614 Q031_03304 |
|
|
| Pseudomonas aeruginosa BWHPSA018 | Q031_03304 |
LuxR family transcriptional regulator
|
3 same-strain members: Q031_00842 Q031_01614 Q031_03304 |
|
|
| Pseudomonas aeruginosa BWHPSA019 | Q032_00373 |
LuxR family transcriptional regulator
|
4 same-strain members: Q032_00373 Q032_00860 Q032_01151 Q032_04416 |
|
|
| Pseudomonas aeruginosa BWHPSA019 | Q032_00860 |
LuxR family transcriptional regulator
|
4 same-strain members: Q032_00373 Q032_00860 Q032_01151 Q032_04416 |
|
|
| Pseudomonas aeruginosa BWHPSA019 | Q032_01151 |
LuxR family transcriptional regulatory, chaperone HchA-associated
|
4 same-strain members: Q032_00373 Q032_00860 Q032_01151 Q032_04416 |
|
|
| Pseudomonas aeruginosa BWHPSA019 | Q032_04416 |
LuxR family transcriptional regulator
|
4 same-strain members: Q032_00373 Q032_00860 Q032_01151 Q032_04416 |
|
|
| Pseudomonas aeruginosa BWHPSA020 | Q033_04573 |
LuxR family transcriptional regulator
|
4 same-strain members: Q033_05558 Q033_01972 Q033_04005 Q033_04573 |
|
|
| Pseudomonas aeruginosa BWHPSA020 | Q033_05558 |
LuxR family transcriptional regulator
|
4 same-strain members: Q033_05558 Q033_01972 Q033_04005 Q033_04573 |
|
|
| Pseudomonas aeruginosa BWHPSA020 | Q033_01972 |
LuxR family transcriptional regulatory, chaperone HchA-associated
|
4 same-strain members: Q033_05558 Q033_01972 Q033_04005 Q033_04573 |
|
|
| Pseudomonas aeruginosa BWHPSA020 | Q033_04005 |
LuxR family transcriptional regulator
|
4 same-strain members: Q033_05558 Q033_01972 Q033_04005 Q033_04573 |
|
|
| Pseudomonas aeruginosa BWHPSA021 | Q034_02981 |
LuxR family transcriptional regulator
|
4 same-strain members: Q034_00737 Q034_02493 Q034_02981 Q034_03271 |
|
|
| Pseudomonas aeruginosa BWHPSA021 | Q034_03271 |
putative transcriptional regulator
|
4 same-strain members: Q034_00737 Q034_02493 Q034_02981 Q034_03271 |
|