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)

The repair of X-ray-induced strand breaks was studied in permeabilized Escherichia coli recBC cells deficient for the adenosine 5'-triphosphate (ATP)-dependent exonuclease V and in recBC sbcA cells that possess the ATP-independent exonuclease VIII. It is shown that repair induced by additon of ATP does not take place in recBC and recBC sbcB cells and is limited in recBC sbcA cells. ATP-dependent repair is nevertheless observable if together with ATP a mixture of deoxynucleotide monophosphates is supplied to the cells. These data fit with the assumption that in wild-type cells ATP-dependent repair involves exonuclease V-induced deoxyribonucleic acid degradation and rephosphorylation of the degradation products which are reused for deoxyribonucleic acid polymerase I-dependent break closure. Repair in the presence of deoxynucleotide triphosphates rejoins a similar fraction of breaks in all strains tested irrespective of the amount of postirradiation degradation resulting from exonuclease V and exonuclease VIII activities. Thus, exonuclease V is dispensable for deoxynucleotide triphosphate-dependent repair, i.e., does not "clean" the ends of breaks produced by X-irradiation. ATP- and deoxynucleotide triphosphate-dependent repair are not additive and seem to repair the same population of deoxyribonucleic acid molecules damaged by X-irradiation.
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PMID:Role of exonucleases V and VIII in adenosine 5'-triphosphate- and deoxynucleotide triphosphate-dependent strand break repair in toluenized Escherichia coli cells treated with X-rays. 37 49

The gene VIII coding for the bacteriophage PRD1 terminal protein P8 has been cloned under the control of the lambda pL promoter. The recombinant plasmid thus obtained (pUSH20) was able to complement a mutation in the phage terminal-protein gene VIII. High expression of the cloned gene from this plasmid could be obtained by raising the growth temperature from 28 to 42 degrees C. This heat induction resulted in an increased synthesis of a protein of 30 kDa, the size expected for the P8 protein. When complemented with an extract of cells carrying the PRD1 DNA polymerase gene, the extract from the cells harboring the plasmid pUSH20 was able to form the P8-dGMP replication initiation complex. The PRD1 replication initiation reaction was optimized and used to detect the biological activity of the expressed terminal protein. Subsequently, P8 protein was purified to almost homogeneity and shown to be biologically functional after the various purification steps.
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PMID:Bacteriophage PRD1 terminal protein: expression of gene VIII in Escherichia coli and purification of the functional P8 product. 269 3

recB and/or recC deficiency in Escherichia coli K-12 is indirectly suppressed by the presence of sbcA(-) mutations. sbcA(-) strains contain an increased level of an ATP-independent nuclease. Genetic and enzymatic tests indicate that this activity is not exonuclease III, exonuclease V (recB-recC nuclease), DNA polymerase I, or lambda exonuclease. This new enzyme (exonuclease VIII) has been purified 750-fold and shows a striking preference for double-stranded DNA over heat-denatured DNA. It does not act endonucleolytically on closed circular, single-stranded DNA as exonuclease V does. It also lacks a 3'-phosphatase function. Analysis on sodium dodecyl sulfate-polyacrylamide gels indicates that exonuclease VIII is not present in unsuppressed (sbcA(+)) strains. It is thought that sbcA determines some type of control function; the structural gene for exonuclease VIII is denoted by recE.
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PMID:Isolation of exonuclease VIII: the enzyme associated with sbcA indirect suppressor. 461 May 79

The stages of spermatogenesis can be identified in freshly isolated, unstained adult mouse seminiferous tubules using a transillumination method. Late acrosome- and maturation phase spermatids, arranged in bundles at stages XII-VI give rise to a spotty transillumination pattern. Before spermiation, these cells form a continuous layer on the top of the seminiferous epithelium, recognized by a strong homogeneous central light absorption in the freshly isolated seminiferous tubules at stages VII and VIII. Other stages have a pale light absorption pattern. The accurate determination of the developmental stages of the germ cells was based on the morphology of the developing acrosomic system and of the nuclei of the spermatids, as revealed by phase contrast microscopy. Using this procedure, the activity levels of DNA polymerases alpha and beta have been studied by autoradiography of squash preparations. Using endogenous templates, assay conditions that differentiate between the solubilized DNA polymerases alpha and beta in vitro, were used to distinguish between these activities in situ in different stages of mouse spermatogenesis. Except in very late spermatids shortly before spermiation, DNA polymerases alpha and beta were detectable in all cell types examined. Coinciding with the nuclear protein transitions, elongating spermatids at steps 10-12 and maturation phase spermatids at steps 13-14 showed high DNA polymerase activities. As no replication occurs in these cells, the observations support the view that both DNA polymerases alpha and beta could be involved in repair DNA synthesis.
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PMID:Identification of living spermatogenic cells of the mouse by transillumination-phase contrast microscopic technique for 'in situ' analyses of DNA polymerase activities. 702 82

Homologous recombination is a fundamental biological process. Biochemical understanding of this process is most advanced for Escherichia coli. At least 25 gene products are involved in promoting genetic exchange. At present, this includes the RecA, RecBCD (exonuclease V), RecE (exonuclease VIII), RecF, RecG, RecJ, RecN, RecOR, RecQ, RecT, RuvAB, RuvC, SbcCD, and SSB proteins, as well as DNA polymerase I, DNA gyrase, DNA topoisomerase I, DNA ligase, and DNA helicases. The activities displayed by these enzymes include homologous DNA pairing and strand exchange, helicase, branch migration, Holliday junction binding and cleavage, nuclease, ATPase, topoisomerase, DNA binding, ATP binding, polymerase, and ligase, and, collectively, they define biochemical events that are essential for efficient recombination. In addition to these needed proteins, a cis-acting recombination hot spot known as Chi (chi: 5'-GCTGGTGG-3') plays a crucial regulatory function. The biochemical steps that comprise homologous recombination can be formally divided into four parts: (i) processing of DNA molecules into suitable recombination substrates, (ii) homologous pairing of the DNA partners and the exchange of DNA strands, (iii) extension of the nascent DNA heteroduplex; and (iv) resolution of the resulting crossover structure. This review focuses on the biochemical mechanisms underlying these steps, with particular emphases on the activities of the proteins involved and on the integration of these activities into likely biochemical pathways for recombination.
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PMID:Biochemistry of homologous recombination in Escherichia coli. 796 21

Endonuclease VIII, a novel presumptive DNA repair enzyme, was isolated from Escherichia coli by FPLC1 purification. The enzyme was found in strains that contained or lacked endonuclease III and was purified by radial flow S-Sepharose, Mono S, phenyl-Superose, and Superose 12 FPLC. Examination of the properties of endonuclease VIII showed it to have many similarities to endonuclease III. DNA containing thymine glycol, dihydrothymine, beta-ureidoisobutyric acid, urea residues, or AP sites was incised by the enzyme; however, DNA containing reduced AP sites was not. HPLC analysis of the products formed by exhaustive enzymatic digestion of damage-containing DNA showed that endonuclease VIII released thymine glycol and dihydrothymine as free bases. Taken together, these data suggest that endonuclease VIII contains both N-glycosylase and AP lyase activities. Consistent with this idea, DNA containing AP sites or thymine glycols, that was enzymatically nicked by endonuclease VIII was not a good substrate for E. coli DNA polymerase I, suggesting that endonuclease VIII nicks damage-containing DNA on the 3' side of the lesion. Also, since monophosphates were not released after treating thymine glycol-containing DNA with endonuclease VIII, the enzyme does not appear to have exonuclease activity. The enzyme activity was maximal in 75 mM NaCl or 5 mM MgCl2. Analysis of endonuclease VIII by both Superose FPLC and Sephadex yielded native molecular masses of 28,000 and 30,000 Da, respectively. SDS-PAGE, in conjunction with activity gel analysis, gave a molecular mass of about 29,000 Da. Furthermore, renaturation of the putative active band from SDS-PAGE gave rise to an active enzyme.
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PMID:Isolation and characterization of endonuclease VIII from Escherichia coli. 811 Jul 59

Replication factor C (RFC) and the proliferating cell nuclear antigen (PCNA) are two essential DNA polymerase accessory proteins that are required for numerous aspects of DNA metabolism including DNA replication, DNA repair, and telomere metabolism. PCNA is a homotrimeric ring-shaped sliding DNA clamp that can facilitate DNA replication by tethering DNA polymerase delta or DNA polymerase epsilon to the DNA template. RFC is the 5-subunit multiprotein complex that loads PCNA onto DNA at primer-template junctions in an ATP-dependent reaction. All five of the RFC subunits share a set of related sequences (RFC boxes) that include nucleotide-binding consensus sequences. We report here that a mutation in the gene encoding the large subunit of yeast RFC gives rise to DNA metabolism defects that can be observed in vivo and in vitro. The rfc1-1 substitution (D513N) lies within the widely conserved RFC box VIII consensus sequence and results in phenotypes including DNA replication defects, increased sensitivity to DNA damaging agents, and elongated telomeres. Mutant Rfc1-1 complexes exhibit in vitro DNA replication defects that are sensitive to ATP concentrations, and these defects can be suppressed by mutant PCNA proteins which contain substitutions that destabilize the homotrimeric sliding DNA clamp.
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PMID:Destabilized PCNA trimers suppress defective Rfc1 proteins in vivo and in vitro. 952 89

A major stable oxidation product of DNA cytosine is uracil glycol (Ug). Because of the potential of Ug to be a strong premutagenic lesion, it is important to assess whether it is a blocking lesion to DNA polymerase as is its structural counterpart, thymine glycol (Tg), and to evaluate its pairing properties. Here, a series of oligonucleotides containing Ug or Tg were prepared and used as templates for a model enzyme, Escherichia coli DNA polymerase I Klenow fragment (exo-). During translesion DNA synthesis, Ug was bypassed more efficiently than Tg in all sequence contexts examined. Furthermore, only dAMP was incorporated opposite template Ug and Tg and the kinetic parameters of incorporation showed that dAMP was inserted opposite Ug more efficiently than opposite Tg. Ug opposite G and A was also recognized and removed in vitro by the E. coli DNA repair glycosylases, endonuclease III (endo III), endonuclease VIII (endo VIII), and formamidopyrimidine DNA glycosylase. The steady state kinetic parameters indicated that Ug was a better substrate for endo III and formamidopyrimidine DNA glycosylase than Tg; for endonuclease VIII, however, Tg was a better substrate.
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PMID:Enzymatic processing of uracil glycol, a major oxidative product of DNA cytosine. 954 49

DNA polymerase delta (Pol delta), which plays keys roles in DNA replication, repair and recombination in eukaryotic cells, comprises at least two essential subunits - a large catalytic subunit (PolD1) possessing both DNA polymerase and 3'-5' exonuclease activities, and a smaller subunit (PolD2) whose function is not yet clear. Here we describe the cloning and sequencing of a Xenopus cDNA encoding a homologue of the PolD2 subunit. This protein (designated XlCdc1) is 69% identical to the human PolD2 protein and 34% identical to fission yeast Cdc1. Alignment of PolD2 protein sequences across ten eukaryotic species identifies 36 invariant amino-acid positions. These 36 residues are located within ten conserved regions (designated I-X) likely to have key functional roles. Consistent with this, the mutations in six previously identified yeast mutant PolD2 proteins map within conserved regions III, VI, VII and VIII. Several of the invariant amino acids are also conserved across the archaeal DNA polymerase II DP1 protein family.
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PMID:Characterisation of XlCdc1, a Xenopus homologue of the small (PolD2) subunit of DNA polymerase delta; identification of ten conserved regions I-X based on protein sequence comparisons across ten eukaryotic species. 1019 69

1-(2-Deoxy-beta-D-erythro-pentofuranosyl)-5-hydroxy-5-methylhydantoin (5-OH-5-Me-dHyd) (3) has been shown to be a major oxidation product of thymidine formed upon exposure of DNA to (*)OH-radical and excited photosensitizers. To investigate the biological and structural significance of the 5-OH-5-Me-dHyd residue to DNA, the latter modified 2'-deoxyribonucleoside was chemically prepared and then site-specifically incorporated into oligodeoxyribonucleotides. This was efficiently achieved using the phosphoramidite approach that involved mild deprotection conditions. The purity and the integrity of the modified synthetic DNA fragments were checked using different complementary techniques such as HPLC and polyacrylamide gel electrophoresis, together with electrospray ionization and MALDI-TOF mass spectrometry. The piperidine test applied to 5-OH-5-Me-dHyd containing oligonucleotides showed a weak instability of hydantoin nucleoside inserted into the oligonucleotide chain. Several enzymatic experiments aimed at determining the biochemical features of such a DNA lesion were carried out. Thus, processing of 5-OH-5-Me-dHyd by nuclease P(1), snake venom phosphodiesterase, and calf spleen phosphodiesterase was investigated. The specificity and the mechanism of excision of the lesion by several bacterial and yeast DNA N-glycosylases, namely, endonuclease III (endo III), endonuclease VIII (endo VIII), formamidopyrimidine DNA N-glycosylase (Fpg), Ntg1 protein (Ntg1), Ntg2 protein (Ntg2), and Ogg1 protein (yOgg1), were also determined. These repair studies clearly showed that all these enzymes, with the exception of the yOgg1 protein, are able to recognize and remove 5-hydroxy-5-methylhydantoin from the double-stranded DNA fragment. Finally, a 22-mer DNA oligomer bearing a 5-OH-5-Me-dHyd residue was used as a template to study the in vitro nucleotide incorporation opposite the damage by the Klenow fragment of Escherichia coli polymerase I, Taq DNA polymerase, and DNA polymerase beta. Thus, it may be concluded that the oxidized thymine residue is a strongly blocking lesion for the three studied DNA polymerases.
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PMID:Repair and coding properties of 5-hydroxy-5-methylhydantoin nucleosides inserted into DNA oligomers. 1089 89


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