Domains within Bacillus subtilis subsp. subtilis str. 168 protein YQIR_BACSU (P54529)
Putative sigma L-dependent transcriptional regulator YqiR
Alternative representations: 1 /
| Protein length | 692 aa |
|---|---|
| Source database | UniProt |
| Identifiers | A0A199WK86_BACIU, A0A199WK86, A0A0A0YFC7_BACIU, A0A0A0YFC7, A0A1X7E1G7_9BACI, A0A1X7E1G7, A0A125UJZ2_9BACI, A0A125UJZ2, L8AMX9_BACIU, L8AMX9, A0A285K2N7_9BACI, A0A285K2N7, YQIR_BACSU, P54529 |
Domain architecture analysis
Display all proteins with similar:
| Domain organisation | Proteins having all the domains as the query in the same order. Additional domains are allowed. |
|---|---|
| Domain composition | Proteins with the same domain composition have at least one copy of each of the domains of the query. |
This domain architecture was probably invented with the emergence of Firmicutes
Predicted functional partners
YQIR_BACSU is shown as 
bkdR in the network
Click and drag to pan the network, and zoom by using your mouse wheel. Click the protein nodes for additional options.
The network on the left comes from STRING, a database of known and predicted protein interactions. Displayed here is the evidence view, where different line colors represent the types of evidence for the association.
Protein YQIR_BACSU is possibly involved in these pathways, based on its similarity to the listed KEGG orthologous groups:
Orthologous groups
Orthology information is taken from eggNOG, a database of orthologous groups of genes. Orthologous groups containing this protein are listed below. This protein is named 224308.BSU24100 in eggNOG.
| OG | Taxonomic class | Description |
|---|---|---|
| LCOG3829 | All organisms (root) | sigma-54 dependent transcriptional regulator, acetoin dehydrogenase operon transcriptional activator AcoR,arginine utilization regulatory protein,transcriptional regulator, propionate catabolism operon regulatory protein |
| B3100 | Bacillus subtilis group (species group) | PAS,Sigma54_activat,HTH_8 |
| COG3829 | Bacteria (superkingdom) | sigma-54 dependent transcriptional regulator, acetoin dehydrogenase operon transcriptional activator AcoR,arginine utilization regulatory protein,transcriptional regulator, propionate catabolism operon regulatory protein |
| 9VNZQ | Firmicutes (phylum) | sigma-54 dependent transcriptional regulator, acetoin dehydrogenase operon transcriptional activator AcoR,arginine utilization regulatory protein,transcriptional regulator of aroF, aroG, tyrA and aromatic amino acid transport |
| G64PK | Bacilli (class) | arginine utilization regulatory protein,sigma-54 dependent transcriptional regulator, acetoin dehydrogenase operon transcriptional activator AcoR,transcriptional regulator, propionate catabolism operon regulatory protein |
| F3BYI | Bacillales (order) | arginine utilization regulatory protein,sigma-54 dependent transcriptional regulator, acetoin dehydrogenase operon transcriptional activator AcoR,transcriptional regulator, propionate catabolism operon regulatory protein |
| F6655 | Bacillaceae (family) | arginine utilization regulatory protein,sigma-54 dependent transcriptional regulator, acetoin dehydrogenase operon transcriptional activator AcoR,transcriptional regulator, propionate catabolism operon regulatory protein |
| AB0K4 | Bacillus (genus) | sigma-54 dependent transcriptional regulator, acetoin dehydrogenase operon transcriptional activator AcoR |
| BAJNK | Bacillus subtilis (species) | PAS,Sigma54_activat,HTH_8 |
The SMART diagram above represents a summary of the results shown below. Domains with scores less significant than established cutoffs are not shown in the diagram. Features are also not shown when two or more occupy the same piece of sequence; the priority for display is given by SMART > PFAM > PROSPERO repeats > Signal peptide > Transmembrane > Coiled coil > Low complexity. In either case, features not shown in the above diagram are listed in the right side table below, and the reason for their omission is shown in the 'Reason' column.