node1 | node2 | node1 accession | node2 accession | node1 annotation | node2 annotation | score |
AmiB | amiC | DR97_4562 | DR97_4563 | sigma-54 interaction domain protein; Unlikely to encode a regulatory protein. Has ATPase activity. AmiB and AmiS may act jointly into a two component ABC transporter system | Branched-chain amino acid transport system substrate-binding protein; Negatively regulates the expression of the aliphatic amidase operon. AmiC functions by inhibiting the action of AmiR at the protein level. It exhibits protein kinase activity | 0.944 |
AmiB | amiE | DR97_4562 | DR97_4561 | sigma-54 interaction domain protein; Unlikely to encode a regulatory protein. Has ATPase activity. AmiB and AmiS may act jointly into a two component ABC transporter system | Acylamide amidohydrolase; Catalyzes the hydrolysis of short-chain aliphatic amides to their corresponding organic acids with release of ammonia. Enables the organism to use acetamide as both carbon and nitrogen source | 0.939 |
AmiB | amiR | DR97_4562 | DR97_4564 | sigma-54 interaction domain protein; Unlikely to encode a regulatory protein. Has ATPase activity. AmiB and AmiS may act jointly into a two component ABC transporter system | Two-component system, response regulator / rna-binding antiterminator; Positive controlling element of AmiE, the gene for aliphatic amidase. Acts as a transcriptional antitermination factor. It is thought to allow RNA polymerase read through a rho-independent transcription terminator between the AmiE promoter and gene | 0.946 |
AmiB | amiS | DR97_4562 | DR97_4565 | sigma-54 interaction domain protein; Unlikely to encode a regulatory protein. Has ATPase activity. AmiB and AmiS may act jointly into a two component ABC transporter system | Amis/urei transporter family protein; Possible transporter that might be responsible for the adsorption of amidase substrates or release of their hydrolysis products. AmiB and AmiS may act jointly in to a two component ABC transporter system | 0.637 |
amiC | AmiB | DR97_4563 | DR97_4562 | Branched-chain amino acid transport system substrate-binding protein; Negatively regulates the expression of the aliphatic amidase operon. AmiC functions by inhibiting the action of AmiR at the protein level. It exhibits protein kinase activity | sigma-54 interaction domain protein; Unlikely to encode a regulatory protein. Has ATPase activity. AmiB and AmiS may act jointly into a two component ABC transporter system | 0.944 |
amiC | amiE | DR97_4563 | DR97_4561 | Branched-chain amino acid transport system substrate-binding protein; Negatively regulates the expression of the aliphatic amidase operon. AmiC functions by inhibiting the action of AmiR at the protein level. It exhibits protein kinase activity | Acylamide amidohydrolase; Catalyzes the hydrolysis of short-chain aliphatic amides to their corresponding organic acids with release of ammonia. Enables the organism to use acetamide as both carbon and nitrogen source | 0.980 |
amiC | amiR | DR97_4563 | DR97_4564 | Branched-chain amino acid transport system substrate-binding protein; Negatively regulates the expression of the aliphatic amidase operon. AmiC functions by inhibiting the action of AmiR at the protein level. It exhibits protein kinase activity | Two-component system, response regulator / rna-binding antiterminator; Positive controlling element of AmiE, the gene for aliphatic amidase. Acts as a transcriptional antitermination factor. It is thought to allow RNA polymerase read through a rho-independent transcription terminator between the AmiE promoter and gene | 0.999 |
amiC | amiS | DR97_4563 | DR97_4565 | Branched-chain amino acid transport system substrate-binding protein; Negatively regulates the expression of the aliphatic amidase operon. AmiC functions by inhibiting the action of AmiR at the protein level. It exhibits protein kinase activity | Amis/urei transporter family protein; Possible transporter that might be responsible for the adsorption of amidase substrates or release of their hydrolysis products. AmiB and AmiS may act jointly in to a two component ABC transporter system | 0.866 |
amiC | ureB | DR97_4563 | DR97_2218 | Branched-chain amino acid transport system substrate-binding protein; Negatively regulates the expression of the aliphatic amidase operon. AmiC functions by inhibiting the action of AmiR at the protein level. It exhibits protein kinase activity | Urease, beta subunit; Belongs to the urease beta subunit family | 0.409 |
amiC | ureC | DR97_4563 | DR97_2219 | Branched-chain amino acid transport system substrate-binding protein; Negatively regulates the expression of the aliphatic amidase operon. AmiC functions by inhibiting the action of AmiR at the protein level. It exhibits protein kinase activity | Urease, alpha subunit; Belongs to the metallo-dependent hydrolases superfamily. Urease alpha subunit family | 0.458 |
amiC | ureD | DR97_4563 | DR97_2215 | Branched-chain amino acid transport system substrate-binding protein; Negatively regulates the expression of the aliphatic amidase operon. AmiC functions by inhibiting the action of AmiR at the protein level. It exhibits protein kinase activity | Ured urease accessory family protein; Required for maturation of urease via the functional incorporation of the urease nickel metallocenter | 0.407 |
amiC | ureE | DR97_4563 | DR97_2242 | Branched-chain amino acid transport system substrate-binding protein; Negatively regulates the expression of the aliphatic amidase operon. AmiC functions by inhibiting the action of AmiR at the protein level. It exhibits protein kinase activity | Urease accessory protein; Involved in urease metallocenter assembly. Binds nickel. Probably functions as a nickel donor during metallocenter assembly | 0.424 |
amiC | ureG | DR97_4563 | DR97_2244 | Branched-chain amino acid transport system substrate-binding protein; Negatively regulates the expression of the aliphatic amidase operon. AmiC functions by inhibiting the action of AmiR at the protein level. It exhibits protein kinase activity | Urease accessory protein ureg; Facilitates the functional incorporation of the urease nickel metallocenter. This process requires GTP hydrolysis, probably effectuated by UreG | 0.401 |
amiE | AmiB | DR97_4561 | DR97_4562 | Acylamide amidohydrolase; Catalyzes the hydrolysis of short-chain aliphatic amides to their corresponding organic acids with release of ammonia. Enables the organism to use acetamide as both carbon and nitrogen source | sigma-54 interaction domain protein; Unlikely to encode a regulatory protein. Has ATPase activity. AmiB and AmiS may act jointly into a two component ABC transporter system | 0.939 |
amiE | amiC | DR97_4561 | DR97_4563 | Acylamide amidohydrolase; Catalyzes the hydrolysis of short-chain aliphatic amides to their corresponding organic acids with release of ammonia. Enables the organism to use acetamide as both carbon and nitrogen source | Branched-chain amino acid transport system substrate-binding protein; Negatively regulates the expression of the aliphatic amidase operon. AmiC functions by inhibiting the action of AmiR at the protein level. It exhibits protein kinase activity | 0.980 |
amiE | amiR | DR97_4561 | DR97_4564 | Acylamide amidohydrolase; Catalyzes the hydrolysis of short-chain aliphatic amides to their corresponding organic acids with release of ammonia. Enables the organism to use acetamide as both carbon and nitrogen source | Two-component system, response regulator / rna-binding antiterminator; Positive controlling element of AmiE, the gene for aliphatic amidase. Acts as a transcriptional antitermination factor. It is thought to allow RNA polymerase read through a rho-independent transcription terminator between the AmiE promoter and gene | 0.984 |
amiE | amiS | DR97_4561 | DR97_4565 | Acylamide amidohydrolase; Catalyzes the hydrolysis of short-chain aliphatic amides to their corresponding organic acids with release of ammonia. Enables the organism to use acetamide as both carbon and nitrogen source | Amis/urei transporter family protein; Possible transporter that might be responsible for the adsorption of amidase substrates or release of their hydrolysis products. AmiB and AmiS may act jointly in to a two component ABC transporter system | 0.857 |
amiR | AmiB | DR97_4564 | DR97_4562 | Two-component system, response regulator / rna-binding antiterminator; Positive controlling element of AmiE, the gene for aliphatic amidase. Acts as a transcriptional antitermination factor. It is thought to allow RNA polymerase read through a rho-independent transcription terminator between the AmiE promoter and gene | sigma-54 interaction domain protein; Unlikely to encode a regulatory protein. Has ATPase activity. AmiB and AmiS may act jointly into a two component ABC transporter system | 0.946 |
amiR | amiC | DR97_4564 | DR97_4563 | Two-component system, response regulator / rna-binding antiterminator; Positive controlling element of AmiE, the gene for aliphatic amidase. Acts as a transcriptional antitermination factor. It is thought to allow RNA polymerase read through a rho-independent transcription terminator between the AmiE promoter and gene | Branched-chain amino acid transport system substrate-binding protein; Negatively regulates the expression of the aliphatic amidase operon. AmiC functions by inhibiting the action of AmiR at the protein level. It exhibits protein kinase activity | 0.999 |
amiR | amiE | DR97_4564 | DR97_4561 | Two-component system, response regulator / rna-binding antiterminator; Positive controlling element of AmiE, the gene for aliphatic amidase. Acts as a transcriptional antitermination factor. It is thought to allow RNA polymerase read through a rho-independent transcription terminator between the AmiE promoter and gene | Acylamide amidohydrolase; Catalyzes the hydrolysis of short-chain aliphatic amides to their corresponding organic acids with release of ammonia. Enables the organism to use acetamide as both carbon and nitrogen source | 0.984 |