Reaction: (1) ATP + (deoxyribonucleotide)n-3'-hydroxyl + 5'-phospho-(deoxyribonucleotide)m = (deoxyribonucleotide)n+m + AMP + diphosphate (overall reaction)
(1a) ATP + [DNA ligase]-L-lysine = 5'-adenosyl [DNA ligase]-Nε-phosphono-L-lysine + diphosphate
(1b) 5'-adenosyl [DNA ligase]-Nε-phosphono-L-lysine + 5'-phospho-(deoxyribonucleotide)m = 5'-(5'-diphosphoadenosine)-(deoxyribonucleotide)m + [DNA ligase]-L-lysine
(1c) (deoxyribonucleotide)n-3'-hydroxyl + 5'-(5'-diphosphoadenosine)-(deoxyribonucleotide)m = (deoxyribonucleotide)n+m + AMP
(2) ADP + (deoxyribonucleotide)n-3'-hydroxyl + 5'-phospho-(deoxyribonucleotide)m = (deoxyribonucleotide)n+m + AMP + Pi (overall reaction)
(2a) ADP + [DNA ligase]-L-lysine = 5'-adenosyl [DNA ligase]-Nε-phosphono-L-lysine + Pi
(2b) 5'-adenosyl [DNA ligase]-Nε-phosphono-L-lysine + 5'-phospho-(deoxyribonucleotide)m = 5'-(5'-diphosphoadenosine)-(deoxyribonucleotide)m + [DNA ligase]-L-lysine
(2c) (deoxyribonucleotide)n-3'-hydroxyl + 5'-(5'-diphosphoadenosine)-(deoxyribonucleotide)m = (deoxyribonucleotide)n+m + AMP
(3) GTP + (deoxyribonucleotide)n-3'-hydroxyl + 5'-phospho-(deoxyribonucleotide)m = (deoxyribonucleotide)n+m + GMP + diphosphate (overall reaction)
(3a) GTP + [DNA ligase]-L-lysine = 5'-guanosyl [DNA ligase]-Nε-phosphono-L-lysine + diphosphate
(3b) 5'-guanosyl [DNA ligase]-Nε-phosphono-L-lysine + 5'-phospho-(deoxyribonucleotide)m = 5'-(5'-diphosphoguanosine)-(deoxyribonucleotide)m + [DNA ligase]-L-lysine
(3c) (deoxyribonucleotide)n-3'-hydroxyl + 5'-(5'-diphosphoguanosine)-(deoxyribonucleotide)m = (deoxyribonucleotide)n+m + GMP
Systematic name: poly(deoxyribonucleotide)-3'-hydroxyl:5'-phospho-poly(deoxyribonucleotide) ligase (ATP, ADP or GTP)
Comments: The enzymes from the archaea Hyperthermus butylicus and Sulfophobococcus zilligii are active with ATP, ADP or GTP. They show no activity with NAD+. The enzyme catalyses the ligation of DNA strands with 3'-hydroxyl and 5'-phosphate termini, forming a phosphodiester and sealing certain types of single-strand breaks in duplex DNA. Catalysis occurs by a three-step mechanism, starting with the activation of the enzyme by ATP, ADP, or GTP, forming a phosphoramide bond between adenylate/guanylate and a lysine residue. The nucleotide is then transferred to the 5'-phosphate terminus of the substrate, forming the capped structure 5'-(5'-diphosphoadenosine/guanosine)-[DNA]. Finally, the enzyme catalyses a nucleophilic attack of the 3'-OH terminus on the capped terminus, which results in formation of the phosphodiester bond and release of the nucleotide. Different from EC 6.5.1.1, DNA ligase (ATP), and EC 6.5.1.6, DNA ligase (ATP or NAD+), which cannot utilize GTP.
Links to other databases: BRENDA, EXPASY, KEGG, MetaCyc, CAS registry number:
References:
1. Sun, Y., Seo, M.S., Kim, J.H., Kim, Y.J., Kim, G.A., Lee, J.I., Lee, J.H. and Kwon, S.T. Novel DNA ligase with broad nucleotide cofactor specificity from the hyperthermophilic crenarchaeon Sulfophobococcus zilligii: influence of ancestral DNA ligase on cofactor utilization. Environ Microbiol 10 (2008) 3212-3224. [PMID: 18647334]
2. Kim, J.H., Lee, K.K., Sun, Y., Seo, G.J., Cho, S.S., Kwon, S.H. and Kwon, S.T. Broad nucleotide cofactor specificity of DNA ligase from the hyperthermophilic crenarchaeon Hyperthermus butylicus and its evolutionary significance. Extremophiles 17 (2013) 515-522. [PMID: 23546841]