node1 | node2 | node1 accession | node2 accession | node1 annotation | node2 annotation | score |
crfC | yhjH | b4109 | b3525 | Clamp-binding sister replication fork colocalization protein, dynamin-related; Important for the colocalization of sister nascent DNA strands after replication fork passage during DNA replication, and for positioning and subsequent partitioning of sister chromosomes. Does not have GTPase activity on its own; Belongs to the TRAFAC class dynamin-like GTPase superfamily. Dynamin/Fzo/YdjA family. | cyclic-di-GMP phosphodiesterase, FlhDC-regulated; Involved in the control of the switch from cell motility to adhesion via regulation of cellular levels of cyclic-di-GMP (c-di-GMP). Part of a signaling cascade that regulates curli biosynthesis. The cascade is composed of two c-di-GMP control modules, in which c-di-GMP controlled by the DgcE/PdeH pair (module I) regulates the activity of the DgcM/PdeR pair (module II), which in turn regulates activity of the transcription factor MlrA and expression of the master biofilm regulator csgD. Effect on flagella is controlled via the c-di-GMP-b [...] | 0.773 |
crfC | yjcZ | b4109 | b4110 | Clamp-binding sister replication fork colocalization protein, dynamin-related; Important for the colocalization of sister nascent DNA strands after replication fork passage during DNA replication, and for positioning and subsequent partitioning of sister chromosomes. Does not have GTPase activity on its own; Belongs to the TRAFAC class dynamin-like GTPase superfamily. Dynamin/Fzo/YdjA family. | YjcZ family protein; yhjH motility defect suppressor. | 0.981 |
crfC | ykfB | b4109 | b0250 | Clamp-binding sister replication fork colocalization protein, dynamin-related; Important for the colocalization of sister nascent DNA strands after replication fork passage during DNA replication, and for positioning and subsequent partitioning of sister chromosomes. Does not have GTPase activity on its own; Belongs to the TRAFAC class dynamin-like GTPase superfamily. Dynamin/Fzo/YdjA family. | CP4-6 prophage; uncharacterized protein; To E.coli YfjT. | 0.792 |
crfC | ynjH | b4109 | b1760 | Clamp-binding sister replication fork colocalization protein, dynamin-related; Important for the colocalization of sister nascent DNA strands after replication fork passage during DNA replication, and for positioning and subsequent partitioning of sister chromosomes. Does not have GTPase activity on its own; Belongs to the TRAFAC class dynamin-like GTPase superfamily. Dynamin/Fzo/YdjA family. | DUF1496 family protein. | 0.562 |
fliS | fliT | b1925 | b1926 | Flagellar biosynthesis; repressor of class 3a and 3b operons (RflA activity); Protein involved in flagellum assembly and taxis. | Putative flagellar synthesis and assembly chaperone; Dual-function protein that regulates the transcription of class 2 flagellar operons and that also acts as an export chaperone for the filament-capping protein FliD. As a transcriptional regulator, acts as an anti-FlhDC factor; it directly binds FlhC, thus inhibiting the binding of the FlhC/FlhD complex to class 2 promoters, resulting in decreased expression of class 2 flagellar operons. As a chaperone, effects FliD transition to the membrane by preventing its premature polymerization, and by directing it to the export apparatus. Belo [...] | 0.999 |
fliS | motA | b1925 | b1890 | Flagellar biosynthesis; repressor of class 3a and 3b operons (RflA activity); Protein involved in flagellum assembly and taxis. | Proton conductor component of flagella motor; MotA and MotB comprise the stator element of the flagellar motor complex. Required for rotation of the flagellar motor. Probable transmembrane proton channel. Overexpression of MotA, with or without MotB, restores motility in a pdeH disruption, (a c-di-GMP phosphodiesterase) suggesting there is an interaction (direct or indirect) between the c-di-GMP-binding flagellar brake protein YcgR and the flagellar stator. | 0.991 |
fliS | motB | b1925 | b1889 | Flagellar biosynthesis; repressor of class 3a and 3b operons (RflA activity); Protein involved in flagellum assembly and taxis. | Protein that enables flagellar motor rotation; MotA and MotB comprise the stator element of the flagellar motor complex. Required for the rotation of the flagellar motor. Probably a linker that fastens the torque-generating machinery to the cell wall. Overexpression of this protein with MotA improves motility in a pdeH disruption, (a c-di-GMP phosphodiesterase) suggesting there is an interaction (direct or indirect) between the c-di-GMP-binding flagellar brake protein YcgR and the flagellar stator. | 0.991 |
fliS | tap | b1925 | b1885 | Flagellar biosynthesis; repressor of class 3a and 3b operons (RflA activity); Protein involved in flagellum assembly and taxis. | Methyl-accepting protein IV; Mediates taxis toward dipeptides via an interaction with the periplasmic dipeptide-binding protein. | 0.921 |
fliS | tar | b1925 | b1886 | Flagellar biosynthesis; repressor of class 3a and 3b operons (RflA activity); Protein involved in flagellum assembly and taxis. | Methyl-accepting chemotaxis protein II; Receptor for the attractant L-aspartate and related amino and dicarboxylic acids. Tar also mediates taxis to the attractant maltose via an interaction with the periplasmic maltose binding protein. Tar mediates taxis away from the repellents cobalt and nickel. | 0.974 |
fliS | yhjH | b1925 | b3525 | Flagellar biosynthesis; repressor of class 3a and 3b operons (RflA activity); Protein involved in flagellum assembly and taxis. | cyclic-di-GMP phosphodiesterase, FlhDC-regulated; Involved in the control of the switch from cell motility to adhesion via regulation of cellular levels of cyclic-di-GMP (c-di-GMP). Part of a signaling cascade that regulates curli biosynthesis. The cascade is composed of two c-di-GMP control modules, in which c-di-GMP controlled by the DgcE/PdeH pair (module I) regulates the activity of the DgcM/PdeR pair (module II), which in turn regulates activity of the transcription factor MlrA and expression of the master biofilm regulator csgD. Effect on flagella is controlled via the c-di-GMP-b [...] | 0.751 |
fliS | yjcZ | b1925 | b4110 | Flagellar biosynthesis; repressor of class 3a and 3b operons (RflA activity); Protein involved in flagellum assembly and taxis. | YjcZ family protein; yhjH motility defect suppressor. | 0.672 |
fliT | fliS | b1926 | b1925 | Putative flagellar synthesis and assembly chaperone; Dual-function protein that regulates the transcription of class 2 flagellar operons and that also acts as an export chaperone for the filament-capping protein FliD. As a transcriptional regulator, acts as an anti-FlhDC factor; it directly binds FlhC, thus inhibiting the binding of the FlhC/FlhD complex to class 2 promoters, resulting in decreased expression of class 2 flagellar operons. As a chaperone, effects FliD transition to the membrane by preventing its premature polymerization, and by directing it to the export apparatus. Belo [...] | Flagellar biosynthesis; repressor of class 3a and 3b operons (RflA activity); Protein involved in flagellum assembly and taxis. | 0.999 |
fliT | motA | b1926 | b1890 | Putative flagellar synthesis and assembly chaperone; Dual-function protein that regulates the transcription of class 2 flagellar operons and that also acts as an export chaperone for the filament-capping protein FliD. As a transcriptional regulator, acts as an anti-FlhDC factor; it directly binds FlhC, thus inhibiting the binding of the FlhC/FlhD complex to class 2 promoters, resulting in decreased expression of class 2 flagellar operons. As a chaperone, effects FliD transition to the membrane by preventing its premature polymerization, and by directing it to the export apparatus. Belo [...] | Proton conductor component of flagella motor; MotA and MotB comprise the stator element of the flagellar motor complex. Required for rotation of the flagellar motor. Probable transmembrane proton channel. Overexpression of MotA, with or without MotB, restores motility in a pdeH disruption, (a c-di-GMP phosphodiesterase) suggesting there is an interaction (direct or indirect) between the c-di-GMP-binding flagellar brake protein YcgR and the flagellar stator. | 0.687 |
fliT | motB | b1926 | b1889 | Putative flagellar synthesis and assembly chaperone; Dual-function protein that regulates the transcription of class 2 flagellar operons and that also acts as an export chaperone for the filament-capping protein FliD. As a transcriptional regulator, acts as an anti-FlhDC factor; it directly binds FlhC, thus inhibiting the binding of the FlhC/FlhD complex to class 2 promoters, resulting in decreased expression of class 2 flagellar operons. As a chaperone, effects FliD transition to the membrane by preventing its premature polymerization, and by directing it to the export apparatus. Belo [...] | Protein that enables flagellar motor rotation; MotA and MotB comprise the stator element of the flagellar motor complex. Required for the rotation of the flagellar motor. Probably a linker that fastens the torque-generating machinery to the cell wall. Overexpression of this protein with MotA improves motility in a pdeH disruption, (a c-di-GMP phosphodiesterase) suggesting there is an interaction (direct or indirect) between the c-di-GMP-binding flagellar brake protein YcgR and the flagellar stator. | 0.821 |
fliT | tap | b1926 | b1885 | Putative flagellar synthesis and assembly chaperone; Dual-function protein that regulates the transcription of class 2 flagellar operons and that also acts as an export chaperone for the filament-capping protein FliD. As a transcriptional regulator, acts as an anti-FlhDC factor; it directly binds FlhC, thus inhibiting the binding of the FlhC/FlhD complex to class 2 promoters, resulting in decreased expression of class 2 flagellar operons. As a chaperone, effects FliD transition to the membrane by preventing its premature polymerization, and by directing it to the export apparatus. Belo [...] | Methyl-accepting protein IV; Mediates taxis toward dipeptides via an interaction with the periplasmic dipeptide-binding protein. | 0.747 |
fliT | tar | b1926 | b1886 | Putative flagellar synthesis and assembly chaperone; Dual-function protein that regulates the transcription of class 2 flagellar operons and that also acts as an export chaperone for the filament-capping protein FliD. As a transcriptional regulator, acts as an anti-FlhDC factor; it directly binds FlhC, thus inhibiting the binding of the FlhC/FlhD complex to class 2 promoters, resulting in decreased expression of class 2 flagellar operons. As a chaperone, effects FliD transition to the membrane by preventing its premature polymerization, and by directing it to the export apparatus. Belo [...] | Methyl-accepting chemotaxis protein II; Receptor for the attractant L-aspartate and related amino and dicarboxylic acids. Tar also mediates taxis to the attractant maltose via an interaction with the periplasmic maltose binding protein. Tar mediates taxis away from the repellents cobalt and nickel. | 0.752 |
fliT | yhjH | b1926 | b3525 | Putative flagellar synthesis and assembly chaperone; Dual-function protein that regulates the transcription of class 2 flagellar operons and that also acts as an export chaperone for the filament-capping protein FliD. As a transcriptional regulator, acts as an anti-FlhDC factor; it directly binds FlhC, thus inhibiting the binding of the FlhC/FlhD complex to class 2 promoters, resulting in decreased expression of class 2 flagellar operons. As a chaperone, effects FliD transition to the membrane by preventing its premature polymerization, and by directing it to the export apparatus. Belo [...] | cyclic-di-GMP phosphodiesterase, FlhDC-regulated; Involved in the control of the switch from cell motility to adhesion via regulation of cellular levels of cyclic-di-GMP (c-di-GMP). Part of a signaling cascade that regulates curli biosynthesis. The cascade is composed of two c-di-GMP control modules, in which c-di-GMP controlled by the DgcE/PdeH pair (module I) regulates the activity of the DgcM/PdeR pair (module II), which in turn regulates activity of the transcription factor MlrA and expression of the master biofilm regulator csgD. Effect on flagella is controlled via the c-di-GMP-b [...] | 0.634 |
fliT | yjcZ | b1926 | b4110 | Putative flagellar synthesis and assembly chaperone; Dual-function protein that regulates the transcription of class 2 flagellar operons and that also acts as an export chaperone for the filament-capping protein FliD. As a transcriptional regulator, acts as an anti-FlhDC factor; it directly binds FlhC, thus inhibiting the binding of the FlhC/FlhD complex to class 2 promoters, resulting in decreased expression of class 2 flagellar operons. As a chaperone, effects FliD transition to the membrane by preventing its premature polymerization, and by directing it to the export apparatus. Belo [...] | YjcZ family protein; yhjH motility defect suppressor. | 0.737 |
motA | fliS | b1890 | b1925 | Proton conductor component of flagella motor; MotA and MotB comprise the stator element of the flagellar motor complex. Required for rotation of the flagellar motor. Probable transmembrane proton channel. Overexpression of MotA, with or without MotB, restores motility in a pdeH disruption, (a c-di-GMP phosphodiesterase) suggesting there is an interaction (direct or indirect) between the c-di-GMP-binding flagellar brake protein YcgR and the flagellar stator. | Flagellar biosynthesis; repressor of class 3a and 3b operons (RflA activity); Protein involved in flagellum assembly and taxis. | 0.991 |
motA | fliT | b1890 | b1926 | Proton conductor component of flagella motor; MotA and MotB comprise the stator element of the flagellar motor complex. Required for rotation of the flagellar motor. Probable transmembrane proton channel. Overexpression of MotA, with or without MotB, restores motility in a pdeH disruption, (a c-di-GMP phosphodiesterase) suggesting there is an interaction (direct or indirect) between the c-di-GMP-binding flagellar brake protein YcgR and the flagellar stator. | Putative flagellar synthesis and assembly chaperone; Dual-function protein that regulates the transcription of class 2 flagellar operons and that also acts as an export chaperone for the filament-capping protein FliD. As a transcriptional regulator, acts as an anti-FlhDC factor; it directly binds FlhC, thus inhibiting the binding of the FlhC/FlhD complex to class 2 promoters, resulting in decreased expression of class 2 flagellar operons. As a chaperone, effects FliD transition to the membrane by preventing its premature polymerization, and by directing it to the export apparatus. Belo [...] | 0.687 |