In molecular biology , the HAMP domain (present in Histidine kinases , Adenylate cyclases , Methyl accepting proteins and Phosphatases )[1] alpha-helical region that forms a dimeric, four-helical coiled coil .[2] chemotaxis proteins and in eukaryotic histidine kinases . The bacterial proteins are usually integral membrane proteins and part of a two-component signal transduction pathway . One or several copies of the HAMP domain can be found in association with other domains, such as the histidine kinase domain, the bacterial chemotaxis sensory transducer domain, the PAS repeat , the EAL domain , the GGDEF domain , the protein phosphatase 2C-like domain, the guanylate cyclase domain, or the response regulatory domain.[3] conformational changes in periplasmic ligand-binding domains to cytoplasmic signalling kinase and methyl-acceptor domains and thus regulates the phosphorylation or methylation activity of homodimeric receptors .
References
^ Aravind L, Ponting CP (July 1999). "The cytoplasmic helical linker domain of receptor histidine kinase and methyl-accepting proteins is common to many prokaryotic signalling proteins" . FEMS Microbiology Letters . 176 (1): 111–6. doi :10.1016/s0378-1097(99)00197-4 PMID 10418137 . ^ Hulko M, Berndt F, Gruber M, Linder JU, Truffault V, Schultz A, Martin J, Schultz JE, Lupas AN, Coles M (September 2006). "The HAMP domain structure implies helix rotation in transmembrane signaling" . Cell . 126 (5): 929–40. doi :10.1016/j.cell.2006.06.058 PMID 16959572 . S2CID 18396561 . ^ Dunin-Horkawicz S, Lupas AN (April 2010). "Comprehensive analysis of HAMP domains: implications for transmembrane signal transduction". Journal of Molecular Biology . 397 (5): 1156–74. doi :10.1016/j.jmb.2010.02.031 . PMID 20184894 .
