{PDOC51059} {PS51059; PARP_CATALYTIC} {PS51060; PARP_ALPHA_HD} {BEGIN} ***************************************************** * PARP catalytic and alpha-helical domains profiles * ***************************************************** Poly(ADP-ribose) polymerases (PARP) (EC 2.4.2.30) are a family of enzymes present in eukaryotes which catalyzes the poly(ADP-ribosyl)ation of a limited number of proteins involved in chromatin architecture, DNA repair, or in DNA metabolism including PARP itself. PARP, also known as poly(ADP-ribose) synthase and poly(ADP-ribose) transferase, transfers the ADP-ribose moiety from its substrate, nicotinamide adenine dinucleotide (NAD), to carboxylate groups of aspartic and glutamic residues. Whereas some PARPs might function in genome protection, others appear to play different roles in the cell, including telomere replication and cellular transport. PARP-1 is a multifunctional enzyme. The polypeptide has a highly conserved modular organization consisting of an N-terminal DNA-binding domain, a central regulating segment, and a C-terminal or F region accommodating the catalytic center. The F region is composed of two parts: a purely alpha-helical N- terminal domain (alpha-hd), and the mixed alpha/beta C-terminal catalytic domain bearing the putative NAD binding site. Although proteins of the PARP family are related through their PARP catalytic domain, they do not resemble each other outside of that region, but rather, they contain unique domains that distinguish them from each other and hint at their discrete functions. Domains to which the PARP catalytic domain is found associated with include zinc fingers (see ), SAP (see ), ankyrin (see ), BRCT (see ), Macro domain, SAM (see ), WWE (see ) and UIM (see ) [1,2,3]. The alpha-hd domain is ~130 amino acids in length and consists of an up-up- down-up-down-down motif of helices (see and ). It is thought to relay the activation signal issued on binding to damaged DNA [4,5]. The PARP catalytic domain is ~230 residues in length (see and ). Its core consists of a five-stranded antiparallel beta-sheet and four-stranded mixed beta-sheet. The two sheets are consecutive and are connected via a single pair of hydrogen bonds between two strands that run at an angle of 90 degree. These central beta-sheets are surrounded by five alpha- helices, three 3(10)-helices, and by a three- and a two-stranded beta-sheet in a 37-residue excursion between two central beta-strands [4,5]. The active site, known as the 'PARP signature' is formed by a block of 50 amino acids, the 'PARP signature', that are strictly conserved among the vertebrates and highly conserved among all species. The 'PARP signature' is characteristic of all PARP protein family members. It is formed by a segment of conserved amino acid residues formed by a beta-sheet, an alpha-helix, a 3(10)-helix, a beta- sheet, and an alpha-helix [3]. Some proteins known to belong to the PARP family are listed below [2,3]: - PARP-1. It is involved in the cellular response to DNA damage. - PARP-2. - PARP-3. It is a core component of the centrosome and is preferentially associated with the daughter centriole at all stages of the cell cycle. - PARP-4 or VPARP. It is associated with vault particles, a cytoplasmic ribonucleoprotein complex that associates two other highly conserved proteins, major vault protein (MVP) and telomerase-associated protein (TEP1) and an untranslated vault RNA (VRNA). - PARP-5a or Tankyrase 1 (TRF1-interacting, ankyrin-related ADP-ribose polymerase). The alpha-hd domain is replaced in Tankyrase by the SAM domain. - PARP-5b or Tankyrase 2. It appears to interact with many partners at discrete subcellular locations, including the Glgi complex and endosomes. - PARP-7 or TiPARP. It has been identified as a 2,3,7,8-Tetrachlorodibenzo-p- dioxin (TCDD)-induced mRNA. - PARP-9 or Bal. - PARP-10. - PARP-11. - PARP-14. - PARP-15. The profiles we developed cover the entire catalytic and alpha-hd domains. -Sequences known to belong to this class detected by the profile: ALL. -Other sequence(s) detected in Swiss-Prot: NONE. -Sequences known to belong to this class detected by the profile: ALL. -Other sequence(s) detected in Swiss-Prot: NONE. -Last update: January 2005 / First entry. [ 1] de Murcia G., Menissier de Murcia J. Trends Biochem. Sci. 19:172-176(1994). [ 2] Ame J.-C., Spenlehauer C., de Murcia G. "The PARP superfamily." Bioessays 26:882-893(2004). PubMed=15273990; DOI=10.1002/bies.20085 [ 3] Nguewa P.A., Fuertes M.A., Valladares B., Alonso C., Perez J.M. "Poly(ADP-ribose) polymerases: homology, structural domains and functions. Novel therapeutical applications." Prog. Biophys. Mol. Biol. 88:143-172(2005). PubMed=15561303; DOI=10.1016/j.pbiomolbio.2004.01.001 [ 4] Ruf A., Mennissier de Murcia J., de Murcia G., Schulz G.E. "Structure of the catalytic fragment of poly(AD-ribose) polymerase from chicken." Proc. Natl. Acad. Sci. U.S.A. 93:7481-7485(1996). PubMed=8755499 [ 5] Oliver A.W., Ame J.-C., Roe S.M., Good V., de Murcia G., Pearl L.H. "Crystal structure of the catalytic fragment of murine poly(ADP-ribose) polymerase-2." Nucleic Acids Res. 32:456-464(2004). PubMed=14739238; DOI=10.1093/nar/gkh215 -------------------------------------------------------------------------------- PROSITE is copyrighted by the SIB Swiss Institute of Bioinformatics and distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives (CC BY-NC-ND 4.0) License, see https://prosite.expasy.org/prosite_license.html -------------------------------------------------------------------------------- {END}