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helix-hairpin-helix domain-containing protein
The HhH domain of DisA, a bacterial checkpoint control protein, is a DNA-binding domain [2]. [1]. 8692686. The helix-hairpin-helix DNA-binding motif: a structural basis for non-sequence-specific recognition of DNA. Doherty AJ, Serpell LC, Ponting CP;. Nucleic Acids Res 1996;24:2488-2497. [2]. 18439896. Structural biochemistry of a bacterial checkpoint protein reveals diadenylate cyclase activity regulated by DNA recombination intermediates. Witte G, Hartung S, Buttner K, Hopfner KP;. Mol Cell. 2008;30:167-178. (from Pfam)
twin BRCT domain
This is a BRCT domain that appears in duplicate in most member sequences. BRCT domains are peptide- and phosphopeptide-binding modules. BRCT domains are present in a number of proteins involved in DNA checkpoint controls and DNA repair [1,2]. [1]. 15220350. Microcephalin is a DNA damage response protein involved in regulation of CHK1 and BRCA1. Xu X, Lee J, Stern DF;. J Biol Chem. 2004;279:34091-34094. [2]. 1762905. Cloning and characterization of the rad4 gene of Schizosaccharomyces pombe; a gene showing short regions of sequence similarity to the human XRCC1 gene. Fenech M, Carr AM, Murray J, Watts FZ, Lehmann AR;. Nucleic Acids Res. 1991;19:6737-6741. (from Pfam)
NAD-dependent DNA ligase C4 zinc finger domain
DNA ligases catalyse the crucial step of joining the breaks in duplex DNA during DNA replication, repair and recombination, utilising either ATP or NAD(+) as a cofactor [1]. This family is a small zinc binding motif that is presumably DNA binding [1]. IT is found only in NAD dependent DNA ligases [1]. [1]. 10698952. Crystal structure of NAD(+)-dependent DNA ligase: modular architecture and functional implications. Lee JY, Chang C, Song HK, Moon J, Yang JK, Kim HK, Kwon ST, Suh SW;. EMBO J 2000;19:1119-1129. (from Pfam)
NAD-dependent DNA ligase OB-fold domain
DNA ligases catalyse the crucial step of joining the breaks in duplex DNA during DNA replication, repair and recombination, utilising either ATP or NAD(+) as a cofactor [1]. This family is a small domain found after the adenylation domain Pfam:PF01653 in NAD dependent ligases [1]. OB-fold domains generally are involved in nucleic acid binding. [1]. 10698952. Crystal structure of NAD(+)-dependent DNA ligase: modular architecture and functional implications. Lee JY, Chang C, Song HK, Moon J, Yang JK, Kim HK, Kwon ST, Suh SW;. EMBO J 2000;19:1119-1129. (from Pfam)
NAD-dependent DNA ligase adenylation domain
DNA ligases catalyse the crucial step of joining the breaks in duplex DNA during DNA replication, repair and recombination, utilising either ATP or NAD(+) as a cofactor [1]. This domain is the catalytic adenylation domain. The NAD+ group is covalently attached to this domain at the lysine in the KXDG motif of this domain. This enzyme- adenylate intermediate is an important feature of the proposed catalytic mechanism [1]. [1]. 10698952. Crystal structure of NAD(+)-dependent DNA ligase: modular architecture and functional implications. Lee JY, Chang C, Song HK, Moon J, Yang JK, Kim HK, Kwon ST, Suh SW;. EMBO J 2000;19:1119-1129. [2]. 11368162. Mutational analyses of Aquifex pyrophilus DNA ligase define essential domains for self-adenylation and DNA binding activity. Lim JH, Choi J, Kim W, Ahn BY, Han YS;. Arch Biochem Biophys 2001;388:253-260. [3]. 10368271. Structure of the adenylation domain of an NAD+-dependent DNA ligase. Singleton MR, Hakansson K, Timson DJ, Wigley DB;. Structure Fold Des 1999;7:35-42. (from Pfam)
BRCT domain-containing protein
The BRCT domain is found predominantly in proteins involved in cell cycle checkpoint functions responsive to DNA damage. The BRCT domain of XRCC1 forms a homodimer in the crystal structure. This suggests that pairs of BRCT domains associate as homo- or heterodimers. BRCT domains are often found as tandem-repeat pairs [2]. Structures of the BRCA1 BRCT domains revealed a basis for a widely utilised head-to-tail BRCT-BRCT oligomerisation mode [3]. This conserved tandem BRCT architecture facilitates formation of the canonical BRCT phospho-peptide interaction cleft at a groove between the BRCT domains. Disease associated missense and nonsense mutations in the BRCA1 BRCT domains disrupt peptide binding by directly occluding this peptide binding groove, or by disrupting key conserved BRCT core folding determinants [5]. Original discovery of duplicated domain in BRCA1. [1]. 8673121. BRCA1 protein products ...Functional motifs... Koonin EV, Altschul SF, Bork P;. Nature Genet 1996;13:266-268. Extension of BRCT superfamily. [2]. 15501676. Interactions between BRCT repeats and phosphoproteins: tangled up in two. Glover JN, Williams RS, Lee MS;. Trends Biochem Sci. 2004;29:579-585. [3]. 11573086. Crystal structure of the BRCT repeat region from the breast cancer-associated protein BRCA1. Williams RS, Green R, Glover JN;. Nat Struct Biol. 2001;8:838-842. [4]. 15133503. Structural basis of phosphopeptide recognition by the BRCT domain of BRCA1. Williams RS, Lee MS, Hau DD, Glover JN;. Nat Struct Mol Biol. 2004;11:519-525. [5]. 14534301. Detection of protein folding defects caused by BRCA1-BRCT truncation and missense mutations. Williams. TRUNCATED at 1650 bytes (from Pfam)
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