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 Vent DNA polymerase gene from Thermococcus litoralis contains two in-frame insertions that must be spliced out to form the mature polymerase. Primer extension and cDNA PCR revealed no evidence of spliced RNA to account for this editing. In contrast, pulse-chase analysis indicated that expression constructs lacking the first insertion produced a protein precursor in Escherichia coli that was processed post-translationally to form polymerase and I-TliI, the endonuclease protein that is the product of the second insertion. At least one intermediate, which migrated more slowly than the precursor and may be branched, was also detected. Amino acid substitutions at the splice junction slowed or blocked the protein splicing reaction. Processing occurs in several heterologous systems, indicating either self-splicing or ubiquitous splicing factors. Processing occurs in a mutant lacking I-TliI endonuclease activity, establishing the independence of splicing and endonuclease activities.
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PMID:Protein splicing removes intervening sequences in an archaea DNA polymerase. 147 79

The size of the repair patch produced by E. coli DNA polymerase (Pol I) following the removal of a pyrimidine dimer from DNA in response to the nicking activity of T4 endonuclease (T4 endo V) was determined. A 48-bp DNA containing a pyrimidine dimer at a defined location was labelled in the damaged strand and incubated with T4 endo V and E. coli endonuclease IV. Subsequently, DNA synthesis by DNA Pol I was carried out in the presence of four dNTPs, ATP and DNA ligase. Analysis of the reaction products on a sequencing gel revealed a ladder of only 4-oligonucleotides, 1-4 nucleotides greater in length than the fragment generated by the combined nicking activities of T4 endo V and E. coli endonuclease IV. Thus we conclude that the in vitro repair patch size of T4 endo V is 4 nucleotides and that in some cases the repaired DNA is not ligated.
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PMID:In vitro characterization of repair synthesis initiated by T4 endonuclease V on a synthetic DNA substrate. 151 8

This paper describes the construction of 'Prime' cloning vectors, which include phage lambda and plasmid vectors useful for functional cloning in oocytes, yeast, and mammalian cells, and their use in a 'Prime' cloning system. The system takes advantage of the very active and precise 3' exonuclease activity of T4 DNA polymerase to produce single-stranded (ss) ends (cut-back) of vector and insert DNA. This results in the highly efficient directional cloning of cDNA and PCR-amplified DNA. The system obviates the need to digest insert DNA with a restriction endonuclease to unveil cloning sites, and thus eliminates the chance of internal digestion of the insert DNA. The cloning of PCR-amplified DNA, which is sometimes difficult, is made routine with this system. The 'Prime' sequence is included in vector cloning sites and cDNA and PCR primers. The 'Prime' sequence was chosen so that the ss sticky ends are nonpalindromic and will hybridize only to the appropriate partners. This makes cloning with the 'Prime' system very efficient, because neither the vector nor insert DNA is lost to unproductive self-hybridization.
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PMID:Functional cloning vectors for use in directional cDNA cloning using cohesive ends produced with T4 DNA polymerase. 153 64

The extent and location of DNA repair synthesis in a double-stranded oligonucleotide containing a single dUMP residue have been determined. Gently prepared Escherichia coli and mammalian cell extracts were employed for excision repair in vitro. The size of the resynthesized patch was estimated by restriction enzyme analysis of the repaired oligonucleotide. Following enzymatic digestion and denaturing gel electrophoresis, the extent of incorporation of radioactively labeled nucleotides in the vicinity of the lesion was determined by autoradiography. Cell extracts of E. coli and of human cell lines were shown to carry out repair mainly by replacing a single nucleotide. No significant repair replication on the 5' side of the lesion was observed. The data indicate that, after cleavage of the dUMP residue by uracil-DNA glycosylase and incision of the resultant apurinic-apyrimidinic site by an apurinic-apyrimidinic endonuclease activity, the excision step is catalyzed usually by a DNA deoxyribophosphodiesterase rather than by an exonuclease. Gap-filling and ligation complete the repair reaction. Experiments with enzyme inhibitors in mammalian cell extracts suggest that the repair replication step is catalyzed by DNA polymerase beta.
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PMID:Generation of single-nucleotide repair patches following excision of uracil residues from DNA. 154 15

The DNA polymerase gene from the Archaea Thermococcus litoralis has been cloned and expressed in Escherichia coli. It is split by two intervening sequences (IVSs) that form one continuous open reading frame with the three polymerase exons. To our knowledge, neither IVS is similar to previously described introns. However, the deduced amino acid sequences of both IVSs are similar to open reading frames present in mobile group I introns. The second IVS (IVS2) encodes an endonuclease, I-Tli I, that cleaves at the exon 2-exon 3 junction after IVS2 has been deleted. IVS2 self-splices in E. coli to yield active polymerase, but processing is abolished if the IVS2 reading frame is disrupted. Silent changes in the DNA sequence at the exon 2-IVS2 junction that maintain the original protein sequence do not inhibit splicing. These data suggest that protein rather than mRNA splicing may be responsible for production of the mature polymerase.
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PMID:Intervening sequences in an Archaea DNA polymerase gene. 160 69

Monoacetyl-hydroxyaminoquinoline 1-oxide (Ac-HAQO) is a model of the ultimate form of the carcinogen 4-nitroquinoline 1-oxide and so it is useful to characterize its reactions with DNA. We find that Ac-HAQO produces one single-strand break (SSB) for every 60 adducts formed in a reaction with supercoiled DNA. The SSBs do not appear to be formed by a free radical reaction and they are distributed throughout the DNA molecule without regard to nucleotide specificity. Unique DNA fragments were reacted with Ac-HAQO. These substrates could not be degraded by the 3'-5' exonuclease action of T4 DNA polymerase unless they were first cleaved by a restriction endonuclease. This indicated that the ends of all the DNA molecules were blocked by adduct formation in spite of the low overall frequency of adducts per DNA molecule.
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PMID:The reaction of acetyl-4-hydroxyaminoquinoline 1-oxide with DNA: quantitation of single-strand break formation and hyper-reactivity of DNA termini. 164 83

Rat heart mitochondria contain a potent endonuclease activity that closely resembles the endonuclease of bovine and human heart mitochondria, and shows a striking preference for an evolutionarily conserved sequence that resides just upstream from the heavy (H)-strand origin of DNA replication (Ori H), (Low, R.L. et al. (1988) Nucleic Acids Res. 16, 6427-6425). This study reports that while the site-directed endonuclease is evident in the mt fractions of several rat organs, the levels of activity among them varies in an unexpected and marked fashion. There is nearly 200-times more of this endonuclease activity per mg of mt protein in the heart than in the liver (or spleen). Levels intermediate to those in heart and liver are found in the kidney and brain. The large variations in endonuclease activity do not correlate with reported rates of mtDNA turnover among tissues and are in contrast to the much smaller variations in levels of mtDNA and DNA polymerase-gamma activity. However, there may be some relationship between the amount of the endonuclease and the rate of oxidative phosphorylation.
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PMID:Mitochondrial endonuclease activity in the rat varies markedly among tissues in relation to the rate of tissue metabolism. 165 36

Porcine liver DNA polymerase gamma was shown previously to copurify with an associated 3' to 5' exonuclease activity (Kunkel, T. A., and Mosbaugh, D. W. (1989) Biochemistry 28, 988-995). The 3' to 5' exonuclease has now been characterized, and like the DNA polymerase activity, it has an absolute requirement for a divalent metal cation (Mg2+ or Mn2+), a relatively high NaCl and KCl optimum (150-200 mM), and an alkaline pH optimum between 7 and 10. The exonuclease has a 7.5-fold preference for single-stranded over double-stranded DNA, but it cannot excise 3'-terminal dideoxy-NMP residues from either substrate. Excision of 3'-terminally mismatched nucleotides was preferred approximately 5-fold over matched 3' termini, and the hydrolysis product from both was a deoxyribonucleoside 5'-monophosphate. The kinetics of 3'-terminal excision were measured at a single site on M13mp2 DNA for each of the 16 possible matched and mismatched primer.template combinations. As defined by the substrate specificity constant (Vmax/Km), each of the 12 mismatched substrates was preferred over the four matched substrates (A.T, T.A, C.G, G.C). Furthermore, the exonuclease could efficiently excise internally mismatched nucleotides up to 4 residues from the 3' end. DNA polymerase gamma was not found to possess detectable DNA primase, endonuclease, 5' to 3' exonuclease, RNase, or RNase H activities. The DNA polymerase and exonuclease activities exhibited dissimilar rates of heat inactivation and sensitivity to N-ethylmaleimide. After nondenaturing activity gel electrophoresis, the DNA polymerase and 3' to 5' exonuclease activities were partially resolved and detected in situ as separate species. A similar analysis on a denaturing activity gel identified catalytic polypeptides with molecular weights of 127,000, 60,000, and 32,000 which possessed only DNA polymerase gamma activity. Collectively, these results suggest that the polymerase and exonuclease activities reside in separate polypeptides, which could be derived from separate gene products or from proteolysis of a single gene product.
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PMID:Properties of the 3' to 5' exonuclease associated with porcine liver DNA polymerase gamma. Substrate specificity, product analysis, inhibition, and kinetics of terminal excision. 166 14

Sequence-Independent, Single-Primer Amplification (SISPA) is a primer initiated technique that requires target sequence modification to achieve the non-selective logarithmic amplification of heterogeneous DNA populations. The method contrasts with the polymerase chain reaction (PCR), and its modified approaches, that have as their objective the amplification of unique or homologous sequences. SISPA requires the directional ligation of an asymmetric linker/primer oligonucleotide onto the target population of blunt ended DNA molecules. The common end sequence allows one strand of the double-stranded linker/primer to be used in repeated rounds of annealing, extension and denaturation in the presence of thermostable Taq DNA polymerase. The linker/primers contain restriction endonuclease sites to facilitate the molecular cloning of as little as 1 pg of starting material after amplification. SISPA is especially useful when the nucleotide sequence of the desired molecule is both unknown and present in limited amounts making its recovery by standard cloning procedures technically difficult. These conditions are present in the initial isolation and cloning of previously uncharacterized viral genomes. The application and quantitation of SISPA is described, together with its utility in the cloning and recovery of low abundance genetic sequences, as illustrated here with the hepatitis C virus.
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PMID:Sequence-independent, single-primer amplification (SISPA) of complex DNA populations. 166 49

We describe a new method for obtaining DNA fragments starting at a desired point where there is no recognition sequence for any known restriction endonuclease. A single-stranded DNA containing the fragment of interest is annealed to a synthetic oligonucleotide hybridizing at the 5' end of the required fragment. Then, a partially double-stranded DNA is synthesized using the Klenow fragment of DNA polymerase I in the presence of the four deoxynucleoside triphosphates. The remaining single-stranded regions are removed by digestion with a single-strand nuclease, and the resulting 5' blunt-ended fragment is finally released by digestion with a restriction endonuclease at any site downstream its 3' end. The usefulness of the method was exemplified here by insertion of an epidermal growth factor-like African swine fever virus gene immediately downstream of the ribosome binding site of an expression vector.
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PMID:A general method to cleave a known DNA sequence at any site. 166 37


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