Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Mammalian terminal deoxyribonucleotidyl transferase (TDT) catalyzes the non-template-directed polymerization of deoxyribonucleoside triphosphates and has a key role in V(D)J recombination during lymphocyte and repertoire development. Over 90% of leukemic cells in acute lymphocytic leukemia and approximately 30% of leukemic cells in the chronic myelogenous leukemia crisis show elevated TDT activity. This finding is connected to a poor prognosis and response to chemotherapy and reduced survival time. On the other hand, recent data indicated that TDT is not the only terminal deoxyribonucleotidyl transferase in mammalian cells. Its close relative, DNA polymerase (pol) pol lambda can synthesize DNA both in a template dependent (DNA polymerase) and template-independent (terminal deoxyribonucleotidyl transferase) fashion. Pol lambda might be involved in the nonhomologous end-joining (NHEJ) recombinational repair pathway of DNA double strand breaks (DSBs). Specific inhibitors of these enzymes hold the potential to be developed into a novel class of antitumoral agents. In this review, we will summarize the recent advances in the synthesis and characterization of the first classes of specific inhibitors of mammalian terminal transferases and their potential applications.
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PMID:Human terminal deoxynucleotidyl transferases as novel targets for anticancer chemotherapy. 1691 60

DNA polymerase lambda (Pol lambda) is a DNA polymerase beta (Pol beta)-like enzyme with both DNA synthetic and 5'-deoxyribose-5'-phosphate lyase domains. Recent biochemical studies implicated Pol lambda as a backup enzyme to Pol beta in the mammalian base excision repair (BER) pathway. To examine the interrelationship between Pol lambda and Pol beta in BER of DNA damage in living cells, we disrupted the genes for both enzymes either singly or in combination in the chicken DT40 cell line and then characterized BER phenotypes. Disruption of the genes for both polymerases caused hypersensitivity to H(2)O(2)-induced cytotoxicity, whereas the effect of disruption of either polymerase alone was only modest. Similarly, BER capacity in cells after H(2)O(2) exposure was lower in Pol beta(-/-)/Pol lambda(-/-) cells than in Pol beta(-/-), wild-type, and Pol lambda(-/-) cells, which were equivalent. These results suggest that these polymerases can complement for one another in counteracting oxidative DNA damage. Similar results were obtained in assays for in vitro BER capacity using cell extracts. With MMS-induced cytotoxicity, there was no significant effect on either survival or BER capacity from Pol lambda gene disruption. A strong hypersensitivity and reduction in BER capacity was observed for Pol beta(-/-)/Pol lambda(-/-) and Pol beta(-/-) cells, suggesting that Pol beta had a dominant role in counteracting alkylation DNA damage in this cell system.
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PMID:Interplay between DNA polymerases beta and lambda in repair of oxidation DNA damage in chicken DT40 cells. 1736 41

DNA polymerase (Pol) lambda is a DNA repair enzyme involved in base excision repair, non-homologous end joining and translesion synthesis. Recently, we identified Pol lambda as an interaction partner of cyclin-dependent kinase 2 (CDK2) that is central to the cell cycle G1/S transition and S-phase progression. This interaction leads to in vitro phosphorylation of Pol lambda, and its in vivo phosphorylation pattern during cell cycle progression mimics the modulation of CDK2/cyclin A. Here, we identify several phosphorylation sites of Pol lambda. Experiments with phosphorylation-defective mutants suggest that phosphorylation of Thr 553 is important for maintaining Pol lambda stability, as it is targeted to the proteasomal degradation pathway through ubiquitination unless this residue is phosphorylated. In particular, Pol lambda is stabilized during cell cycle progression in the late S and G2 phases. This most likely allows Pol lambda to correctly conduct repair of damaged DNA during and after S phase.
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PMID:Control of DNA polymerase lambda stability by phosphorylation and ubiquitination during the cell cycle. 1868 54

Four types of DNA polymerase (Pol beta, Pol lambda, Pol mu and TdT) have been identified in eukaryotes as members of the polymerase X-family. Only vertebrates have all four types of enzyme. Plants and fungi have one or two X-family polymerases, while protostomes, such as fruit flies and nematodes, do not appear to have any. It is possible that the well-known metabolic pathways in which these enzymes are involved are restricted to the vertebrate world. The distribution of the DNA polymerases involved in DNA repair across the various biological kingdoms differs from that of the DNA polymerases involved in chromosomal DNA replication. In this review, we focus on the interesting pattern of distribution of the X-family enzymes across biological kingdoms and speculate on their roles.
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PMID:Distribution and roles of X-family DNA polymerases in eukaryotes. 1870 67

Recently we have reported the characterization of a novel single subunit 62-kDa polypeptide with ddNTP-sensitive DNA polymerase activity from the developing seeds of mungbean (Vigna radiata). The protein showed higher expression and activity level during nuclear endoreduplication stages of mungbean seeds and similarity with mammalian DNA polymerase beta in many physicochemical properties. The enzyme was found to specifically interact with PCNA (proliferating cell nuclear antigen), and expressed in both meristematic and meiotic tissues. Functional assays have demonstrated binding of the enzyme to normal and mismatched DNA substrates and with fidelity DNA synthesis in moderately processive mode, suggesting probable involvement of the enzyme in both replication and recombination. Here we have discussed the position of mungbean DNA polymerase as a homologue of DNA Pol lambda, one of the newly identified member of family-X DNA polymerase in plants and illustrated the functional relevance of this enzyme in maintaining the coordination between DNA replication and repair in plant genome.
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PMID:An insight into the biological functions of family X-DNA polymerase in DNA replication and repair of plant genome. 1859 45


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