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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 polymerase delta core is a heterodimeric enzyme with a catalytic subunit of 125 kDa and a second subunit of 50 kDa with an as yet unknown function. It is an essential enzyme for DNA replication and DNA repair. We cloned the full-length cDNA encoding the DNA polymerase delta small subunit from mouse cells. The sequence of the predicted polypeptide of 51,336 Da is, like the catalytic subunit, highly conserved not only among mammals (93% identity and 96% similarity), but also between yeast and mammals (34% identity and 57% similarity). Fluorescence in situ hybridization experiments indicated that the gene for the small DNA polymerase delta of mouse is localized on chromosome 11, band A2. By using the yeast two-hybrid system we found that the mouse 125-kDa DNA polymerase catalytic subunit is able to interact with the 50-kDa subunit of the human enzyme, suggesting an in vivo interspecies interaction between the two subunits of DNA polymerase delta.
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PMID:Cloning, chromosomal localization, and interspecies interaction of mouse DNA polymerase delta small subunit (PolD2). 928 99

Bacteriophage sk1 is a small isometric-headed lytic phage belonging to the 936 species. It infects Lactococcus lactis, a commonly used dairy starter organism. Nucleotide sequence data analysis indicated that the sk1 genome is 28,451 nucleotides long and contains 54 open reading frames (ORFs) of 30 or more codons, interspersed with three large intergenic regions. The nucleotide sequence of several of the sk1 ORFs demonstrated significant levels of identity to genes (many encoding proteins of unknown function) in other lactococcal phages of both small isometric-headed and prolate-headed morphotype. Based on this identity and predicted peptide structures, sk1 genes for the terminase, major structural protein and DNA polymerase have been putatively identified. Genes encoding holin and lysin were also identified, subcloned into an Escherichia coli expression vector, and their function demonstrated in vivo. The sk1 origin of replication was located by identifying sk1 DNA fragments able to support the maintenance in L. lactis of a plasmid lacking a functional Gram-positive ori. The minimal fragment conferring replication origin function contained a number of direct repeats and 179 codons of ORF47. Although no similarity between phage sk1 and coliphage lambda at the nucleotide or amino acid sequence level was observed, an alignment of the sk1 late region ORFs with the lambda structural and packaging genes revealed a striking correspondence in both ORF length and isoelectric point of the ORF product. It is proposed that this correspondence is indicative of a strong conservation in gene order within these otherwise unrelated isometric-headed phages that can be used to predict the functions of the sk1 gene products.
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PMID:Analysis of the DNA sequence, gene expression, origin of replication and modular structure of the Lactococcus lactis lytic bacteriophage sk1. 938 89

The DNA polymerase III holoenzyme is composed of 10 subunits. The core of the polymerase contains the catalytic polymerase subunit, alpha, the proofreading 3'-->5' exonuclease, epsilon, and a subunit of unknown function, theta. The availability of the holoenzyme subunits in purified form has allowed us to investigate their roles at the replication fork. We show here that of the three subunits in the core polymerase, only alpha is required to form processive replication forks that move at high rates and that exhibit coupled leading- and lagging-strand synthesis in vitro. Taken together with previous data this suggests that the primary determinant of replication fork processivity is the interaction between another holoenzyme subunit, tau, and the replication fork helicase, DnaB.
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PMID:Role of the core DNA polymerase III subunits at the replication fork. Alpha is the only subunit required for processive replication. 944 96

Human DNA polymerase epsilon is composed of a 261 kDa catalytic polypeptide and a 55 kDa small subunit of unknown function. cDNAs encoding the small subunit of human and mouse DNA polymerase epsilon were cloned. The predicted polypeptides have molecular masses of 59.469 and 59.319 kDa respectively and they are 90% identical. The human and mouse polypeptides show 22% identity with the 80 kDa subunit of the five subunit DNA polymerase epsilon from the yeast Saccharomyces cerevisiae. The high degree of conservation suggests that the 55 kDa subunit shares an essential function with the yeast 80 kDa subunit, which was earlier suggested to be involved in S phase cell cycle control in a pathway that is able to sense and signal incomplete replication. The small subunits of human and mouse DNA polymerase epsilon also show homology to the C-terminal domain of the second largest subunit of DNA polymerase alpha. The gene for the small subunit of human DNA polymerase epsilon (POLE2) was localized to chromosome 14q21-q22 by fluorescence in situ hybridization.
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PMID:The small subunits of human and mouse DNA polymerase epsilon are homologous to the second largest subunit of the yeast Saccharomyces cerevisiae DNA polymerase epsilon. 944 64

Ferric nitrilotriacetate induces oxidative damage in renal proximal tubules that ultimately leads to a high incidence of renal cell carcinoma (RCC) in rats. In search of genes specifically involved in oxystress-induced carcinogenesis, we have applied a modified fluorescent differential display technique to the tumors and an established cell line as well as their non-neoplastic counterparts. We screened approximately 84,000 products. Reverse Northern blotting confirmed differential expression of 20 transcripts, which showed either significant increase, decrease or lack of expression in the RCCs. Five cDNA clones encoded novel products of unknown function. Fifteen cDNA clones were identified by homology search, which included annexin II, Y-box binding protein, ribosomal proteins, heat shock proteins, DNA polymerase, nonmuscle caldesmon (increased); protein tyrosine phosphatase (decreased); selenoprotein P, stromal cell-derived factor 1, intestinal trefoil protein, nicotinamide adenine dinucleotide, reduced form (NADH) dehydrogenase, and insulin-like growth factor binding protein 7 (deleted). Most of the identified genes were associated with stress-response or cellular proliferation. These results suggest that multiple, interactive genetic pathways are involved in carcinogenesis induced by oxidative stress.
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PMID:Expression of stress-response and cell proliferation genes in renal cell carcinoma induced by oxidative stress. 1085 35

A ColE2-like, cryptic plasmid, pUB6060, of 5.8 kb has been found in a clinical isolate of Plesiomonas shigelloides. The complete sequence of pUB6060 has been determined and reveals a number of interesting features about the plasmid. The ColE2-like replication locus is linked to a functional ColE1-like mobilization locus. Replication is, unusually for ColE2 replicons, DNA polymerase-I-independent and may involve two, rather than the usual one, plasmid-encoded functions. Additionally, it carries two ORFs encoding products of unknown function. The pUB6060 replicon maintains a moderate plasmid copy number (10 per chromosome copy) and permits replication in diverse gram-negative bacteria.
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PMID:pUb6060: a broad-host-range, DNA polymerase-I-independent ColE2-like plasmid. 1132 23

White spot syndrome virus (WSSV) is at present a major scourge to worldwide shrimp cultivation. We have determined the entire sequence of the double-stranded, circular DNA genome of WSSV, which contains 292,967 nucleotides encompassing 184 major open reading frames (ORFs). Only 6% of the WSSV ORFs have putative homologues in databases, mainly representing genes encoding enzymes for nucleotide metabolism, DNA replication, and protein modification. The remaining ORFs are mostly unassigned, except for five, which encode structural virion proteins. Unique features of WSSV are the presence of a very long ORF of 18,234 nucleotides, with unknown function, a collagen-like ORF, and nine regions, dispersed along the genome, each containing a variable number of 250-bp tandem repeats. The collective information on WSSV and the phylogenetic analysis on the viral DNA polymerase suggest that WSSV differs profoundly from all presently known viruses and that it is a representative of a new virus family.
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PMID:The white spot syndrome virus DNA genome sequence. 1144 54

Deletion of the viral ligase gene drastically reduced the fitness of bacteriophage T7 on a ligase-deficient host. Viral evolution recovered much of this fitness during long-term passage, but the final fitness remained below that of the intact virus. Compensatory changes occurred chiefly in genes involved in DNA metabolism: the viral endonuclease, helicase, and DNA polymerase. Two other compensatory changes of unknown function also occurred. Using a method to distinguish compensatory mutations from other beneficial mutations, five additional substitutions from the recovery were shown to enhance adaptation to culture conditions and were not compensatory for the deletion. In contrast to the few previous studies of viral recovery from deletions, the compensatory changes in T7 did not restore the deletion or duplicate major regions of the genome. The ability of this deleted genome to recover much of the lost fitness via mutations in its remaining genes reveals a considerable evolutionary potential to modify the interactions of its elements in maintaining an essential set of functions.
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PMID:Experimental genomic evolution: extensive compensation for loss of DNA ligase activity in a virus. 1186 82

The 3'-5' riboexonuclease Rrp6p, a nuclear component of the exosome, functions with other exosome components to produce the mature 3' ends of 5.8S rRNA, sno- and snRNAs, and to destroy improperly processed precursor (pre)-rRNAs and pre-mRNAs. Rrp6p is a member of the RNase D family of riboexonucleases and displays a high degree of homology with the active site of the deoxyriboexonuclease domain of Escherichia coli DNA polymerase I, the crystal structure of which indicates a two-metal ion mechanism for phosphodiester bond hydrolysis. Mutation of each of the conserved residues predicted to coordinate metal ions in the active site of Rrp6p abolished activity of the enzyme in vitro and in vivo. Complete loss of Rrp6p activity caused by the Y361F and Y361A mutations supports the critical role proposed for the phenolic hydroxyl of Tyr361 in the reaction mechanism. Rrp6p also contains an helicase RNase D C-terminal (HRDC) domain of unknown function that is similar to domains in the Werner's and Bloom's Syndrome proteins. A point mutation in this domain results in Rrp6p that localizes to the nucleus, but fails to efficiently process the 3' ends of 5.8S pre-rRNA and some pre-snoRNAs. In contrast, this mutant retains the ability to degrade rRNA processing intermediates and 3'-extended, poly(A)+ snoRNAs. These findings indicate the potential for independent control of the processing and degradation functions of Rrp6p.
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PMID:Contribution of domain structure to the RNA 3' end processing and degradation functions of the nuclear exosome subunit Rrp6p. 1292 58

Eukaryotic DNA polymerase (Pol) delta replicates chromosomal DNA and is also involved in DNA repair and genetic recombination. Motif A in Pol delta, containing the sequence DXXXLYPSI, includes a catalytically essential aspartic acid as well as other conserved residues of unknown function. Here, we used site-directed mutagenesis to create all 19 amino acid substitutions for the conserved Leu(612) in Motif A of Saccharomyces cerevisiae Pol delta. We show that substitutions at Leu(612) differentially affect viability, sensitivity to genotoxic agents, cell cycle progression, and replication fidelity. The eight viable mutants contained Ile, Val, Thr, Met, Phe, Lys, Asn, or Gly substitutions. Individual substitutions varied greatly in the nature and extent of attendant phenotypic deficiencies, exhibiting mutation rates that ranged from near wild type to a 37-fold increase. The L612M mutant exhibited a 7-fold elevation of mutation rate but essentially no detectable effects on other phenotypes monitored; the L612T mutant showed a nearly wild type mutation rate together with marked hypersensitivity to genotoxic agents; and the L612G and L612N strains exhibited relatively high mutation rates and severe deficits overall. We compare our results with those for homologous substitutions in prokaryotic and eukaryotic DNA polymerases and discuss the implications of our findings for the role of Leu(612) in replication fidelity.
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PMID:Mutator phenotypes caused by substitution at a conserved motif A residue in eukaryotic DNA polymerase delta. 1634 51

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