DNA ligase from Drosophila melanogaster embryos. Substrate specificity and mechanism of action.

Abstract

DNA ligase has been purified to homogeneity from 6-12 h Drosophila melanogaster embryos (Rabin, B. A., Hawley, R. S., and Chase, J. W. (1986) J. Biol. Chem. 261, 10637-10645). This enzyme had an apparent Km for ATP of 1.6 microM. Of a variety of nucleotides tested, only adenosine 5'-O-(3-thio)triphosphate could substitute for ATP in the joining reaction. The enzyme was competitively inhibited by dATP, with an apparent Ki of 2.3 microM. The apparent Km for DNA using p(dT)20 annealed with poly(dA) as substrate was 1.0 microM. Studies utilizing synthetic homopolymers showed that in addition to joining DNA to DNA, this enzyme could join the 5'-phosphoryl termini of RNA to the 3'-hydroxyl termini of DNA or RNA, when they were annealed with DNA. In addition, p(dT)7U could be joined when annealed with poly(dA). No joining was detected when RNA served as the template. Drosophila DNA ligase also catalyzed the joining of oligonucleotides containing a single mismatched nucleotide at their 3'-hydroxyl termini, as well as DNA containing short, complementary 5'-protruding ends, and in the presence of polyethylene glycol 6000, blunt-ended duplex DNA. The overall reaction mechanism was shown to be identical to that of the homologous prokaryotic DNA ligases. The joining reactions catalyzed by the Drosophila and T4 DNA ligases were shown to be reversible. Incubation of superhelical closed circular DNA molecules with the purified enzymes and AMP resulted in the production of a population of DNA molecules which had lost most, if not all, of their superhelical density.