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What's a Pseudomonas Ortholog Group?

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 POG000655

369 results were returned for your query
= Popular strains (Ordered by popular strains first, then by strain name, ascending)
Strain Locus Tag Description Same-Strain Members Fragment ?
Pseudomonas aeruginosa LESlike5 T227_RS54410 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LESlike7 T228_RS53530 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_10_a1 TC72_RS15845 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_11_a1 TC72_RS19865 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_12_a1 TC72_RS30095 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_13_a1 TC72_RS28825 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_14_a1 TC72_RS20105 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_15_a1 TC72_RS29895 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_16_a1 TC72_RS18260 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_17_a1 TC72_RS16735 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_18_a1 TC72_RS16375 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_19_a1 TC72_RS30160 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_1_a1 TC72_RS15835 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_20_a1 TC72_RS23715 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_21_a1 TC72_RS29990 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_22_a1 TC72_RS30055 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_23_a1 TC72_RS15170 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_24_a1 TC72_RS30010 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_25_a1 TC72_RS15140 sigma factor regulator VreR
1 member
Pseudomonas aeruginosa LES_CF_sputum_CF03_contigs_26_a1 TC72_RS17075 sigma factor regulator VreR
1 member