Response regulator proteins are involved in the two-component signal transduction systems to detect and respond to environmental changes. These proteins consist of two domains, an N-terminal response regulator receiver domain that is substrate for a histidine protein kinase sensor, and a variable C-terminal effector domain with DNA- binding activity (here, a LuxR-type HTH domain) that acts as transcriptional regulator; Family membership.

The sensor histidine kinase belongs to two-component signal transduction systems. It catalyzes the ATP-dependent autophosphorylation of a conserved histidine in its phosphoacceptor domain and the signal-dependent phosphorylation of a conserved aspartic acid present in the response regulator receiver domain; Contains one transmembrane segment and one N-terminal tetratrico peptide motif (TPR); Localized in the cytoplasmic membrane; Family membership.

Response regulator proteins are involved in the two-component signal transduction systems to detect and respond to environmental changes. These proteins consist of two domains, an N-terminal response regulator receiver domain that is substrate for a histidine protein kinase sensor, and a variable C-terminal effector domain with DNA- binding activity (here a LuxR-type HTH domain) that acts as transcriptional regulator; Family membership.

The sensor histidine kinase belongs to two-component signal transduction systems. It catalyzes the ATP-dependent autophosphorylation of a conserved histidine in its phosphoacceptor domain and the signal-dependent phosphorylation of a conserved aspartic acid present in the response regulator receiver domain; Contains one transmembrane segment and one N-terminal tetratrico peptide motif (TPR); Localized in the cytoplasmic membrane; Family membership.

Conserved hypothetical protein; Possible cytoplasmic protein.

The response regulator proteins are involved in the two-component signal transduction systems to detect and respond to environmental changes. The protein consists of two domains, an N-terminal response regulator receiver domain that is substrate for a histidine protein kinase sensor, and a variable C-terminal effector domain with DNA-binding activity, a LuxR-type HTH domain, which acts as transcriptional regulator; Family membership.

Conserved hypothetical protein; Possible cytoplasmic protein.

The sensor histidine kinase belongs to two-component signal transduction systems. It catalyzes the ATP-dependent autophosphorylation of a conserved histidine in its phosphoacceptor domain and the signal-dependent phosphorylation of a conserved aspartic acid present in the response regulator receiver domain; Contains one transmembrane segment and one N-terminal tetratrico peptide motif (TPR); Localized in the cytoplasmic membrane; Family membership.

The response regulator proteins are involved in the two-component signal transduction systems to detect and respond to environmental changes. The protein consists of two domains, an N-terminal response regulator receiver domain that is substrate for a histidine protein kinase sensor, and a variable C-terminal effector domain with DNA-binding activity, a LuxR-type HTH domain, which acts as transcriptional regulator; Family membership.

Conserved hypothetical protein; Possible cytoplasmic protein.

The response regulator proteins are involved in the two-component signal transduction systems to detect and respond to environmental changes. The protein consists of two domains, an N-terminal response regulator receiver domain that is substrate for a histidine protein kinase sensor, and a variable C-terminal effector domain with DNA-binding activity, a LuxR-type HTH domain, which acts as transcriptional regulator; Family membership.

The sensor histidine kinase belongs to two-component signal transduction systems. It catalyzes the ATP-dependent autophosphorylation of a conserved histidine in its phosphoacceptor domain and the signal-dependent phosphorylation of a conserved aspartic acid present in the response regulator receiver domain; Contains one transmembrane segment and one N-terminal tetratrico peptide motif (TPR); Localized in the cytoplasmic membrane; Family membership.

The response regulator proteins are involved in the two-component signal transduction systems to detect and respond to environmental changes. The protein consists of two domains, an N-terminal response regulator receiver domain that is substrate for a histidine protein kinase sensor, and a variable C-terminal effector domain with DNA-binding activity, a LuxR-type HTH domain, which acts as transcriptional regulator; Family membership.

Hypothetical membrane protein; Contains one central transmembrane segment; Probably localized in the cytoplasmic membrane; Hypothetical protein.

The sensor histidine kinase belongs to two-component signal transduction systems. It catalyzes the ATP-dependent autophosphorylation of a conserved histidine in its phosphoacceptor domain and the signal-dependent phosphorylation of a conserved aspartic acid present in the response regulator receiver domain; Contains one transmembrane segment and one N-terminal tetratrico peptide motif (TPR); Localized in the cytoplasmic membrane; Family membership.

Response regulator proteins are involved in the two-component signal transduction systems to detect and respond to environmental changes. These proteins consist of two domains, an N-terminal response regulator receiver domain that is substrate for a histidine protein kinase sensor, and a variable C-terminal effector domain with DNA- binding activity (here, a LuxR-type HTH domain) that acts as transcriptional regulator; Family membership.

The sensor histidine kinase belongs to two-component signal transduction systems. It catalyzes the ATP-dependent autophosphorylation of a conserved histidine in its phosphoacceptor domain and the signal-dependent phosphorylation of a conserved aspartic acid present in the response regulator receiver domain; Contains one transmembrane segment and one N-terminal tetratrico peptide motif (TPR); Localized in the cytoplasmic membrane; Family membership.

Response regulator proteins are involved in the two-component signal transduction systems to detect and respond to environmental changes. These proteins consist of two domains, an N-terminal response regulator receiver domain that is substrate for a histidine protein kinase sensor, and a variable C-terminal effector domain with DNA- binding activity (here a LuxR-type HTH domain) that acts as transcriptional regulator; Family membership.

The sensor histidine kinase belongs to two-component signal transduction systems. It catalyzes the ATP-dependent autophosphorylation of a conserved histidine in its phosphoacceptor domain and the signal-dependent phosphorylation of a conserved aspartic acid present in the response regulator receiver domain; Contains one transmembrane segment and one N-terminal tetratrico peptide motif (TPR); Localized in the cytoplasmic membrane; Family membership.

Conserved hypothetical protein; Possible cytoplasmic protein.

The sensor histidine kinase belongs to two-component signal transduction systems. It catalyzes the ATP-dependent autophosphorylation of a conserved histidine in its phosphoacceptor domain and the signal-dependent phosphorylation of a conserved aspartic acid present in the response regulator receiver domain; Contains one transmembrane segment and one N-terminal tetratrico peptide motif (TPR); Localized in the cytoplasmic membrane; Family membership.

The response regulator proteins are involved in the two-component signal transduction systems to detect and respond to environmental changes. The protein consists of two domains, an N-terminal response regulator receiver domain that is substrate for a histidine protein kinase sensor, and a variable C-terminal effector domain with DNA-binding activity, a LuxR-type HTH domain, which acts as transcriptional regulator; Family membership.

The sensor histidine kinase belongs to two-component signal transduction systems. It catalyzes the ATP-dependent autophosphorylation of a conserved histidine in its phosphoacceptor domain and the signal-dependent phosphorylation of a conserved aspartic acid present in the response regulator receiver domain; Contains one transmembrane segment and one N-terminal tetratrico peptide motif (TPR); Localized in the cytoplasmic membrane; Family membership.

Hypothetical membrane protein; Contains one central transmembrane segment; Probably localized in the cytoplasmic membrane; Hypothetical protein.

The sensor histidine kinase belongs to two-component signal transduction systems. It catalyzes the ATP-dependent autophosphorylation of a conserved histidine in its phosphoacceptor domain and the signal-dependent phosphorylation of a conserved aspartic acid present in the response regulator receiver domain; Contains one transmembrane segment and one N-terminal tetratrico peptide motif (TPR); Localized in the cytoplasmic membrane; Family membership.

Conserved hypothetical protein; Contains a domain of unknown function (DUF 11) and a fragment of 34 residues of Actin-binding like protein (Filamin/ABP280); Signal peptide cleaved betwenn the residues 20 and 21; Putatively localized in the outer membrane.

The sensor histidine kinase belongs to two-component signal transduction systems. It catalyzes the ATP-dependent autophosphorylation of a conserved histidine in its phosphoacceptor domain and the signal-dependent phosphorylation of a conserved aspartic acid present in the response regulator receiver domain; Contains one transmembrane segment and one N-terminal tetratrico peptide motif (TPR); Localized in the cytoplasmic membrane; Family membership.

Response regulator proteins are involved in the two-component signal transduction systems to detect and respond to environmental changes. These proteins consist of two domains, an N-terminal response regulator receiver domain that is substrate for a histidine protein kinase sensor, and a variable C-terminal effector domain with DNA- binding activity (here, a LuxR-type HTH domain) that acts as transcriptional regulator; Family membership.

The sensor histidine kinase belongs to two-component signal transduction systems. It catalyzes the ATP-dependent autophosphorylation of a conserved histidine in its phosphoacceptor domain and the signal-dependent phosphorylation of a conserved aspartic acid present in the response regulator receiver domain; Contains one transmembrane segment and one N-terminal tetratrico peptide motif (TPR); Localized in the cytoplasmic membrane; Family membership.

Transcriptional regulator belonging to the LuxR family. Features a C-terminal helix-turn-helix DNA binding motif. Localized in the cytoplasm; Specificity unclear.

The sensor histidine kinase belongs to two-component signal transduction systems. It catalyzes the ATP-dependent autophosphorylation of a conserved histidine in its phosphoacceptor domain and the signal-dependent phosphorylation of a conserved aspartic acid present in the response regulator receiver domain; Contains one transmembrane segment and one N-terminal tetratrico peptide motif (TPR); Localized in the cytoplasmic membrane; Family membership.

Response regulator proteins are involved in the two-component signal transduction systems to detect and respond to environmental changes. These proteins consist of two domains, an N-terminal response regulator receiver domain that is substrate for a histidine protein kinase sensor, and a variable C-terminal effector domain with DNA- binding activity (here, a LuxR-type HTH domain) that acts as transcriptional regulator; Family membership.

The sensor histidine kinase belongs to two-component signal transduction systems. It catalyzes the ATP-dependent autophosphorylation of a conserved histidine in its phosphoacceptor domain and the signal-dependent phosphorylation of a conserved aspartic acid present in the response regulator receiver domain; Contains one transmembrane segment and one N-terminal tetratrico peptide motif (TPR); Localized in the cytoplasmic membrane; Family membership.

Response regulator proteins are involved in the two-component signal transduction systems to detect and respond to environmental changes. These proteins consist of two domains, an N-terminal response regulator receiver domain that is substrate for a histidine protein kinase sensor, and a variable C-terminal effector domain with DNA- binding activity (here, a LuxR-type HTH domain) that acts as transcriptional regulator; Family membership.

Hypothetical membrane protein; Contains one central transmembrane segment; Probably localized in the cytoplasmic membrane; Hypothetical protein.

The response regulator proteins are involved in the two-component signal transduction systems to detect and respond to environmental changes. The protein consists of two domains, an N-terminal response regulator receiver domain that is substrate for a histidine protein kinase sensor, and a variable C-terminal effector domain with DNA-binding activity, a LuxR-type HTH domain, which acts as transcriptional regulator; Family membership.

Hypothetical membrane protein; Contains one central transmembrane segment; Probably localized in the cytoplasmic membrane; Hypothetical protein.

The sensor histidine kinase belongs to two-component signal transduction systems. It catalyzes the ATP-dependent autophosphorylation of a conserved histidine in its phosphoacceptor domain and the signal-dependent phosphorylation of a conserved aspartic acid present in the response regulator receiver domain; Contains one transmembrane segment and one N-terminal tetratrico peptide motif (TPR); Localized in the cytoplasmic membrane; Family membership.

Hypothetical membrane protein; Contains one central transmembrane segment; Probably localized in the cytoplasmic membrane; Hypothetical protein.

Conserved hypothetical protein; Contains a domain of unknown function (DUF 11) and a fragment of 34 residues of Actin-binding like protein (Filamin/ABP280); Signal peptide cleaved betwenn the residues 20 and 21; Putatively localized in the outer membrane.