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 (here a LytTR-type HTH domain), which acts as transcriptional regulator; Localized in the cytoplasm; 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 LytTR-type HTH domain, that acts as transcriptional regulator; 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 (here a LytTR-type HTH domain), which acts as transcriptional regulator; Localized in the cytoplasm; 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; Lipoprotein signal peptide cleaved between the residues 23 and 24; Contains four N-terminal tetratrico peptide repeats (TPR) and one transmembrane segment; 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 LytTR-type HTH domain, that acts as transcriptional regulator; 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 LytTR-type HTH domain, that acts as transcriptional regulator; 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 LytTR-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; Lipoprotein signal peptide cleaved between the residues 23 and 24; Contains four N-terminal tetratrico peptide repeats (TPR) and one transmembrane segment; 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 (here a LytTR-type HTH domain), which acts as transcriptional regulator; 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 LytTR-type HTH domain, that acts as transcriptional regulator; 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 (here a LytTR-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; Lipoprotein signal peptide cleaved between the residues 23 and 24; Contains four N-terminal tetratrico peptide repeats (TPR) and one transmembrane segment; 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 LytTR-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; Lipoprotein signal peptide cleaved between the residues 23 and 24; Contains four N-terminal tetratrico peptide repeats (TPR) and one transmembrane segment; 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 LytTR-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; Lipoprotein signal peptide cleaved between the residues 23 and 24; Contains four N-terminal tetratrico peptide repeats (TPR) and one transmembrane segment; 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 LytTR-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; Lipoprotein signal peptide cleaved between the residues 23 and 24; Contains four N-terminal tetratrico peptide repeats (TPR) and one transmembrane segment; 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 LytTR-type HTH domain, that acts as transcriptional regulator; 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 (here a LytTR-type HTH domain), which acts as transcriptional regulator; Localized in the cytoplasm; 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 LytTR-type HTH domain, that acts as transcriptional regulator; 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 LytTR-type HTH domain, that acts as transcriptional regulator; 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 LytTR-type HTH domain, that acts as transcriptional regulator; 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 (here a LytTR-type HTH domain), which acts as transcriptional regulator; 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 LytTR-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; Lipoprotein signal peptide cleaved between the residues 23 and 24; Contains four N-terminal tetratrico peptide repeats (TPR) and one transmembrane segment; Localized in the cytoplasmic membrane; 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; Lipoprotein signal peptide cleaved between the residues 23 and 24; Contains four N-terminal tetratrico peptide repeats (TPR) and one transmembrane segment; 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 (here a LytTR-type HTH domain), which acts as transcriptional regulator; Localized in the cytoplasm; 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; Lipoprotein signal peptide cleaved between the residues 23 and 24; Contains four N-terminal tetratrico peptide repeats (TPR) and one transmembrane segment; 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 LytTR-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; Lipoprotein signal peptide cleaved between the residues 23 and 24; Contains four N-terminal tetratrico peptide repeats (TPR) and one transmembrane segment; 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 (here a LytTR-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; Lipoprotein signal peptide cleaved between the residues 23 and 24; Contains four N-terminal tetratrico peptide repeats (TPR) and one transmembrane segment; 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 LytTR-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; Lipoprotein signal peptide cleaved between the residues 23 and 24; Contains four N-terminal tetratrico peptide repeats (TPR) and one transmembrane segment; 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 LytTR-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; Lipoprotein signal peptide cleaved between the residues 23 and 24; Contains four N-terminal tetratrico peptide repeats (TPR) and one transmembrane segment; 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 LytTR-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; Lipoprotein signal peptide cleaved between the residues 23 and 24; Contains four N-terminal tetratrico peptide repeats (TPR) and one transmembrane segment; 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 LytTR-type HTH domain, that acts as transcriptional regulator; Family membership.