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Target Concepts:
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Query: EC:2.7.7.7 (
DNA polymerase
)
17,007
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
DNA joining events are required for the completion of DNA replication, DNA excision repair and genetic recombination. Five DNA ligase activities, I-V, have been purified from mammalian cell extracts and three mammalian LIG genes,
LIG1
LIG3 and LIG4, have been cloned. During DNA replication, the joining of Okazaki fragments by the
LIG1
gene product appears to be mediated by an interaction with proliferating cell nuclear antigen (PCNA). This interaction may also occur during the completion of mismatch, nucleotide excision and base excision repair (BER). In addition, DNA ligase I participates in a second BER pathway that is carried out by a multiprotein complex in which DNA ligase I interacts directly with
DNA polymerase beta
. DNA ligase III alpha and DNA ligase III beta, which are generated by alternative splicing of the LIG3 gene, can be distinguished by their ability to bind to the DNA repair protein, XRCC1. The interaction between DNA ligase III alpha and XRCC1, which occurs through BRCT motifs in the C-termini of these polypeptides, implicates this isoform of DNA ligase III in the repair of DNA single-strand breaks and BER. DNA ligase II appears to be a proteolytic fragment of DNA ligase III alpha. The restricted expression of DNA ligase III beta suggests that this enzyme may function in the completion of meiotic recombination or in a postmeiosis DNA repair pathway. Complex formation between DNA ligase IV and the DNA repair protein XRCC4 involves the C-terminal region of DNA ligase IV, which contains two BRCT motifs. This interaction, which stimulates DNA joining activity, implies that DNA ligase IV functions in V(D)J recombination and non-homologous end-joining of DNA double-strand breaks. At the present time, it is not known whether DNA ligase V is derived from one of the known mammalian LIG genes or is the product of a novel gene.
...
PMID:Structure and function of mammalian DNA ligases. 953 76
Three mammalian genes encoding DNA ligases--
LIG1
, LIG3, and LIG4--have been identified. Genetic, biochemical, and cell biology studies indicate that the products of each of these genes play a unique role in mammalian DNA metabolism. Interestingly, cell lines deficient in either DNA ligase I (46BR.1G1) or DNA ligase III (EM9) are sensitive to simple alkylating agents. One interpretation of these observations is that DNA ligases I and III participate in functionally distinct base excision repair (BER) subpathways. In support of this idea, extracts from both DNA ligase-deficient cell lines are defective in catalyzing BER in vitro and both DNA ligases interact with other BER proteins. DNA ligase I interacts directly with proliferating cell nuclear antigen (PCNA) and
DNA polymerase beta
(Pol beta), linking this enzyme with both short-patch and long-patch BER. In somatic cells, DNA ligase III alpha forms a stable complex with the DNA repair protein Xrcc1. Although Xrcc1 has no catalytic activity, it also interacts with Pol beta and poly(ADP-ribose) polymerase (PARP), linking DNA ligase III alpha with BER and single-strand break repair, respectively. Biochemical studies suggest that the majority of short-patch base excision repair events are completed by the DNA ligase III alpha/Xrcc1 complex. Although there is compelling evidence for the participation of PARP in the repair of DNA single-strand breaks, the role of PARP in BER has not been established.
...
PMID:Completion of base excision repair by mammalian DNA ligases. 1155 94
DNA ligase I (
LIG1
) joins DNA strand breaks during DNA replication and repair transactions and contributes to genome integrity. The mutations (P529L, E566K, R641L and R771W) in
LIG1
gene are described in patients with
LIG1
-deficiency syndrome that exhibit immunodeficiency.
LIG1
senses 3'-DNA ends with a mismatch or oxidative DNA base inserted by a repair
DNA polymerase
. However, the ligation efficiency of the
LIG1
variants for
DNA polymerase
-promoted mutagenesis products with 3'-DNA mismatches or 8-oxo-2'-deoxyguanosine (8-oxodG) remains undefined. Here, we report that R641L and R771W fail in the ligation of nicked DNA with 3'-8-oxodG, leading to an accumulation of 5'-AMP-DNA intermediates in vitro. Moreover, we found that the presence of all possible 12 non-canonical base pairs variously impacts the ligation efficiency by P529L and R771W depending on the architecture at the DNA end, whereas E566K exhibits no activity against all substrates tested. Our results contribute to the understanding of the substrate specificity and mismatch discrimination of
LIG1
for mutagenic repair intermediates and the effect of non-synonymous mutations on ligase fidelity.
...
PMID:DNA ligase I variants fail in the ligation of mutagenic repair intermediates with mismatches and oxidative DNA damage. 3291 44
