EC:2.7.7.7 - FACTA Search

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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)

A one-step three-stage efficient PCR method for site-directed mutagenesis has been developed. This method involves one PCR reaction with no need to add more reagents during this reaction or to do a second PCR reaction. This method utilizes a three-stage PCR cycling profile, a ddNTP-blocked restriction endonuclease fragment, and Pfu DNA polymerase. This method allows the amplification of at least 2 kb of final mutant product via an intermediate megaprimer as large as 1.3 kb with high fidelity, high efficiency, high yield, and high success rate. A 3.2-kb large final mutant product has also been obtained by using Taq and Taq Extender (Stratagene) instead of Pfu. This method is particularly useful when there are no unique restriction sites in the gene of interest to reduce the large sizes of the final mutant product and/or the megaprimer.
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PMID:A one-step polymerase chain reaction site-directed mutagenesis method for large gene-cassettes with high efficiency, yield, and fidelity. 858 14

Both the linear plasmids, pDHL1 (8.4 kb) and pDHL2 (9.2 kb), of Debaryomyces hansenii TK require the presence of a third linear plasmid pDHL3 (15.0 kb) in the same host cell for their replication. A 3.5 kb Bam HI-PstI fragment of pDHL1 strongly hybridized by Southern analysis to the 3.5 kb NcoI-AccI fragment of pDHL2, suggesting the importance of this conserved region in the replication of the two smaller pDHL plasmids. The 4.2 kb pDHL1 fragment containing the above hybridized region was cloned and sequenced. The results showed that the cloned pDHL1 fragment encodes a protein of 1000 amino acid residues, having a strong similarity to the DNA polymerase coded for by ORF1 of the killer plasmid pGKL1 from Kluyveromyces lactis. The catalytic and proof-reading exonuclease domains as well as terminal protein motif were well conserved as in DNA polymerases of pGKL1 and other yeast linear plasmids. Analysis of the cloned fragment further showed that pDHL1 encodes a protein partly similar to the alpha subunit of the K. lactis killer toxin, although killer activity was not known in the DHL system. Analysis of the 5' non-coding region of the two above pDHL1-ORFs reveal the presence of the upstream conserved sequence similar to that found upstream of pGKL1-ORFs. The possible hairpin loop structure was also found just in front of the ATG start codon of the pDHL1-ORFs like pGKL1-ORFs. Thus the cytoplasmic pDHL plasmids were suggested to possess a gene expression system comparable to that of K. lactis plasmids.
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PMID:The linear plasmid pDHL1 from Debaryomyces hansenii encodes a protein highly homologous to the pGKL1-plasmid DNA polymerase. 920 Aug 11

A DNA polymerase from cauliflower (Brassica oleracea var. botrytis) inflorescence has been purified to near homogeneity through five successive column chromatographies, and temporally designated cauliflower polymerase 1. Cauliflower polymerase 1 is a monopolypeptide with a molecular mass of 100 kDa. The enzyme efficiently uses synthetic DNA homopolymers and moderately activated DNA and a synthetic RNA homopolymer as template-primers. The enzyme is strongly sensitive to dideoxythymidine triphosphate and N-ethylmaleimide, but it is insensitive to aphidicolin. It was stimulated with 250 mM KCl. Its mode of DNA synthesis is high-processive with or without proliferating-cell nuclear antigen. A 3'-->5' exonuclease activity is associated with cauliflower polymerase 1. The enzyme is clearly different from cauliflower mitochondrial polymerase and does not resemble the four different types of wheat DNA polymerase, designated wheat DNA polymerases A, B, CI and CII. In the present paper the role of the enzyme in plant DNA synthesis is discussed.
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PMID:Purification and characterization of a 100 kDa DNA polymerase from cauliflower inflorescence. 960 Oct 87

A 3'-->5' exonuclease found in rat liver excises mispaired nucleotides at the 3'-hydroxyl end of primer chains such as poly dA-d(T9-C). Consequently, the priming activity of the chain from which the mispaired base was cut is greatly increased during DNA synthesis. These results suggest that the 3'-->5' exonuclease acts as a proofreading enzyme during DNA synthesis. The activity of this 3'-->5' exonuclease in the liver of 24-month-old rats is approximately 30% lower than the activity found in 4-month-old rats. Furthermore, non-complementary nucleotide incorporations by DNA polymerases from aged rats are observed during DNA synthesis on poly dA-dT10. The number of misincorporations decreases in the presence of the 3'-->5' exonuclease, but not all errors are prevented even when DNA polymerase and 3'-->5' exonuclease are added at an activity ratio similar to that found in vivo. The data suggest that declines in both the fidelity of DNA polymerase and the 3'-->5' exonuclease activity related to proofreading during the aging process lead to a higher frequency of base misincorporations during DNA replication.
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PMID:Age dependent decline in the 3'-->5' exonuclease activity involved in proofreading during DNA synthesis. 992 20

A 3.9 kb DNA fragment containing the dnaA gene region of Mycobacterium avium was cloned and its nucleotide sequence was determined. Nucleotide sequence analyses indicated that this region encodes three genes in the order rpmH (ribosomal protein L34), dnaA (the putative initiator protein) and dnaN (the beta subunit of DNA polymerase III). The intergenic regions between the rpmH-dnaA and dnaA-dnaN genes were found to contain several putative DnaA boxes, 9 nt long DnaA protein recognition sequences. A DNA fragment containing the 3' but not the 5' flanking region of the M. avium dnaA gene when cloned in Escherichia coli plasmids, which are otherwise non-replicative in mycobacteria, exhibited autonomous replication activity in M. avium but not in Mycobacterium bovis BCG and Mycobacterium smegmatis. The 5' flanking region of dnaA, on the other hand, exhibited autonomous replication activity in M. bovis BCG but not in M. avium and M. smegmatis. The implications of these results for the understanding of the M. avium oriC replication initiation process are discussed.
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PMID:The dnaA gene region of Mycobacterium avium and the autonomous replication activities of its 5' and 3' flanking regions. 1053 13

Sequence analysis of a 6.4 kb DNA region from the Spodoptera littoralis multinucleocapsid nucleopolyhedrovirus (SpliNPV) revealed a large open reading frame (ORF) encoding a predicted polypeptide of 998 amino acid (aa) residues with a molecular mass of 114.93 kDa, located between 47.2-52.3 m.u. on the SpliNPV genome. Comparative sequence analyses demonstrated that the ORF encodes a DNA polymerase gene (dnapol) that contains conserved exonuclease domains and DNA polymerase motifs found in many prokaryotic, eukaryotic, and viral replicative DNA polymerases. A second ORF, ORF138, located between the lef-3 and dnapol, encodes a 138 aa polypetide that is homologous to ORF66 of the Autographa californica MNPV (AcMNPV). SpliNPV DNA polymerase shares an overall aa sequence identity of 39% with that of AcMNPV. A 3.0 kb SpliNPV dnapol-specific transcript was detected initially at 2 hpi and became abundant 48 hpi by Northern blot analysis. The transcription initiation site was mapped to an NPV early promoter element, ACGT. 3' RACE demonstrated that the SpliNPV dnapol transcript terminated at the polyadenylation signal AATAAA. Sequence analysis suggested that the SpliNPV dnapol and the dnapol of the NPV of S. litura (SpltNPV) are closely related.
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PMID:Identification, transcription and sequence analysis of the Spodoptera littoralis nucleopolyhedrovirus (SpliNPV) DNA polymerase gene. 1131 40

Ape1 is the major human abasic endonuclease, initiating repair of this common DNA lesion by incising the phosphodiester backbone 5' to the damage site. This enzyme also functions in specific contexts to excise 3'-blocking termini, e.g. phosphate and phosphoglycolate residues, from DNA. Recently, the comparatively "minor" 3' to 5' exonuclease activity of Ape1 was found to contribute to the excision of certain 3'-mismatched nucleotides. In this study, I characterize more thoroughly the 3'-nuclease properties of Ape1 and define the effects of specific DNA determinants on this function. Data within shows that Ape1 is a non- or poorly processive exonuclease, which degrades one nucleotide gap, 3'-recessed, and nicked DNAs, but exhibits no detectable activity on blunt end or single-stranded DNA. A 5'-phosphate, compared to a 5'-hydroxyl group, reduced Ape1 degradation activity roughly tenfold, suggesting that the biological impact of certain DNA single strand breaks may be influenced by the terminal chemistry. In the context of a base excision repair-like DNA intermediate, a 5'-abasic residue exerted an about tenfold attenuation on the 3' to 5' exonuclease efficiency of Ape1. A 3'-phosphate group had little impact on Ape1 exonuclease activity, and oligonucleotides harboring these blocking termini were activated by Ape1 for DNA polymerase beta extension. Ape1 was also found to remove 3'-tyrosyl residues from 3'-recessed and nicked DNAs, suggesting a potential role in processing covalent topoisomerase I-DNA intermediates formed during chromosome relaxation. While exhibiting preferential excision of thymine in a T:G mismatch context, Ape1 was unable to degrade a triple 3'-thymine mispair. However, Ape1 was able to excise double nucleotide mispairs, apparently through a novel 3'-flap-type endonuclease activity, again activating these substrates for polymerase beta extension.
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PMID:Properties of and substrate determinants for the exonuclease activity of human apurinic endonuclease Ape1. 1286 Jan 25

The DNA polymerase V (pol V) and RecA proteins are essential components of a mutagenic translesion synthesis pathway in Escherichia coli designed to cope with DNA damage. Previously, it has been assumed that RecA binds to the DNA template strand being copied. Here we show, however, that pol-V-catalysed translesion synthesis, in the presence or absence of the beta-processivity-clamp, occurs only when RecA nucleoprotein filaments assemble or RecA protomers bind on separate single-stranded (ss)DNA molecules in trans. A 3'-proximal RecA filament end on trans DNA is essential for stimulation; however, synthesis is strengthened by further pol V-RecA interactions occurring elsewhere along a trans nucleoprotein filament. We suggest that trans-stimulation of pol V by RecA bound to ssDNA reflects a distinctive regulatory mechanism of mutation that resolves the paradox of RecA filaments assembled in cis on a damaged template strand obstructing translesion DNA synthesis despite the absolute requirement of RecA for SOS mutagenesis.
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PMID:RecA acts in trans to allow replication of damaged DNA by DNA polymerase V. 1692 90

Deinococcus radiodurans is an extraordinarily radioresistant bacterium that is able to repair hundreds of radiation-induced double-stranded DNA breaks. One of the players in this pathway is an X family DNA polymerase (PolX(Dr)). Deletion of PolX(Dr) has been shown to decrease the rate of repair of double-stranded DNA breaks and increase cell sensitivity to gamma-rays. A 3'-->5' exonuclease activity that stops cutting close to DNA loops has also been demonstrated. The present crystal structure of PolX(Dr) solved at 2.46-A resolution reveals that PolX(Dr) has a novel extended conformation in stark contrast to the closed "right hand" conformation commonly observed for DNA polymerases. This extended conformation is stabilized by the C-terminal PHP domain, whose putative nuclease active site is obstructed by its interaction with the polymerase domain. The overall conformation and the presence of non standard residues in the active site of the polymerase X domain makes PolX(Dr) the founding member of a novel class of polymerases involved in DNA repair but whose detailed mode of action still remains enigmatic.
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PMID:The family X DNA polymerase from Deinococcus radiodurans adopts a non-standard extended conformation. 1925 92

Kinetoplast DNA in African trypanosomes contains a novel form of mitochondrial DNA consisting of thousands of minicircles and dozens of maxicircles topologically interlocked to form a two-dimensional sheet. The replication of this unusual form of mitochondrial DNA has been studied for more than 30 years, and although a large number of kinetoplast replication genes and proteins have been identified, in vitro replication of these DNAs has not been possible since a kinetoplast DNA primase has not been available. We describe here a Trypanosoma brucei DNA primase gene, PRI1, that encodes a 70-kDa protein that localizes to the kinetoplast and is essential for both cell growth and kinetoplast DNA replication. The expression of PRI1 mRNA is cyclic and reaches maximum levels at a time corresponding to duplication of the kinetoplast DNA. A 3'-hydroxyl-terminated oligoriboadenylate is synthesized on a poly(dT) template by a recombinant form of the PRI1 protein and is subsequently elongated by DNA polymerase and added dATP. Poly(dA) synthesis is dependent on both PRI1 protein and ATP and is inhibited by RNase H treatment of the product of PRI1 synthesis.
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PMID:A mitochondrial DNA primase is essential for cell growth and kinetoplast DNA replication in Trypanosoma brucei. 2006 37

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