Abstract
Mammalian cell nuclei contain three biochemically distinct DNA ligases. In the present study we have found high levels of DNA ligase I and DNA ligase III activity in bovine testes and have purified DNA ligase III to near homogeneity. The high level of DNA ligase III suggests a role for this enzyme in meiotic recombination. In assays measuring the fidelity of DNA joining, we detected no significant differences between DNA ligases II and III, whereas DNA ligase I was clearly a more faithful enzyme and was particularly sensitive to 3' mismatches. Amino acid sequences of peptides derived from DNA ligase III demonstrated that this enzyme, like DNA ligase II, is highly homologous with vaccinia DNA ligase. The absence of unambiguous differences between homologous peptides from DNA ligases II and III (10 pairs of peptides, 136 identical amino acids) indicates that these enzymes are either derived from a common precursor polypeptide or are encoded from the same gene by alternative splicing. Based on similarities in amino acid sequence and biochemical properties, we suggest that DNA ligases II and III, Drosophila DNA ligase II, and the DNA ligases encoded by the pox viruses constitute a distinct family of DNA ligases that perform specific roles in DNA repair and genetic recombination.
Highlights
Mammalian cell nuclei contain three biochemically distinct DNA ligases
Based on similarities in amino acid sequence and biochemical properties, we suggest that DNA ligases II and III, Drosophila DNA ligase II, and the DNA ligases encoded by the pox viruses constitute a distinct family ofDNA ligases that perform specific roles in DNA repair and genetic recombination
Partial Purification of DNA Ligase I and DNA Ligase III from Whole Cell Extracts of Bovine Testes-Three biochemically distinct DNA ligase activities have been identified in whole cell extracts from calf thymus glands [2]
Summary
Mammalian cell nuclei contain three biochemically distinct DNA ligases. In the present study we have found high levels of DNA ligase I and DNA ligase III activity in bovine testes and have purified DNA ligase III to near homogeneity. Amino acid sequences of peptides derived from DNA ligase III demonstrated that this enzyme, like DNA ligase II, is highly homologous with vaccinia DNA ligase. The absence of unambiguous differences between homologous peptides from DNA ligases II and III (10 pairs of peptides, 136 identical amino acids) indicates that these enzymes are either derived from a common precursor polypeptide or are encoded from the same gene by alternative splicing. Based on similarities in amino acid sequence and biochemical properties, we suggest that DNA ligases II and III, Drosophila DNA ligase II, and the DNA ligases encoded by the pox viruses constitute a distinct family ofDNA ligases that perform specific roles in DNA repair and genetic recombination. The abnormal pattern of DNA replication intermediates detected in experiments with the human cell line 46BR and its derivatives, which contain mutated DNA ligase I alleles, are consistent. The sensitivity of these cell lines to DNA damaging agents suggests that DNA ligase I may be involved in certain DNA repair pathways [6, 10,11,12]
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