EC:2.7.7.7 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:2.7.7.7 (DNA polymerase)
17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the presence of thiols, 5-mercuripyrimidine nucleotides are quantitatively converted to 5-thiomercuri derivatives, but these compounds are unstable and decompose at a rate dependent on the nature of the thiol. The decomposition involves three different reactions and proceeds via a symmetrical mercury derivative of the nucleotide. The end product is the unmodified nucleotide. Similar reactions occur in the presence of hydrogen sulfide. Since mercurated nucleoside triphosphates are substrates for RNA- and DNA polymerase only in the form of thiomercuri derivatives, this implies that when DNA is replicated or transcribed in vitro with a mercurated substrate, the latter is rapidly demercurated to the unmodified substrate which is incorporated as well. Hence the product of the in vitro synthesis can only be partially mercurated in any one pyrimidine. Also, formation of cross-links in the resulting polymer is possible.
...
PMID:The reactions of mercurated pyrimidine nucleotides with thiols and with hydrogen sulfide. 67 47

Upon exposure to the carcinogens N-acetoxy-N-2-acetylaminofluorene and 7-bromomethyl-benz[a]anthracene, which bind covalently to DNA, ether-permeabilized (nucleotide-permeable) Escherichia coli wild-type cells responded with DNA excision repair. This repair was missing in mutants carrying defects in genes uvrA, uvrB and uvrC, whereas it was present in uvrD and several rec mutants. Enzymic activities involved were identified by measuring repair polymerization and size reduction of denatured DNA. 1. An easily measurable effect in E. coli wild-type cells was carcinogen-induced repair polymerization. When initiated by N-acetoxy-N-2-acetylaminofluorene or 7-bromomethyl-benz[a]anthracene, it depended upon an ATP-requiring step; CTP, GTP or UTP did not substitute for ATP. DNA repair synthesis was inhibited by p-chloromercuribenzoate and quinacrine. In uvrA, uvrB and uvrC mutants no carcinogen-stimulated DNA synthesis could be detected, indicating that steps involved in pyrimidine dimer excision are also involved in chemorepair. In recA, recB and recC mutant cells, repair synthesis was stimulated by the carcinogens to a normal extent. This evidence excludes the ATP-dependent recB,C deoxyribonuclease and recA gene products as playing an important role in carcinogen-induced excision repair. polA1 cells showed drastically reduced levels of rapair polymerization, indicating that DNA polymerase I is the main polymerizing enzyme. 2. As determined by DNA size reduction in alkaline sucrose gradients, the arylalkylating carcinogens caused endonucleolytic cleavage of endogenous DNA in wild-type cells. This incision step was most effectively performed in the presence of ATP; UTP, CTP and GTP were only slightly effective. Incision was inhibited by p-chloromercuribenzoate and quinacrine. When exposed to the arylalkylating carcinogens, uvrA, uvrB and uvrC mutant cells did not perform the incision step in the presence of ATP, suggesting the involvement of the respective gene products in the initiation of chemorepair.
...
PMID:Carcinogen-induced DNA repair in nucleotide-permeable Escherichia coli cells. Analysis of DNA repair induced by the carcinogens N-acetoxy-N-2-acetylaminofluorene and 7-bromomethyl-benz(a)anthracene. 76 31

The sequence of the first 29 nucleotides in the promoter region of a tyrosine tRNA gene has previously been determined (Sekiya, T., van Ormondt, H., and Khorana, H.G. (1975) J. Biol. Chem. 250, 1087-1098). This work has now been extended to give the sequence of a total of 59 nucleotides; the sequence is as follows: (see article). The general approach used in the determination of the sequence involved the DNA polymerase I-catalyzed elongation of synthetic deoxyribopolynucleotide primers hydridized to the l-strand of phi80psu+III DNA at the appropriate site. Sequencing of the newly added nucleotides was facilitated by the use of a number of techniques including (a) elongation of the primer with the use of all of the four nucleoside 5'-triphosphates but limiting the concentration of one of the triphosphates, (b) insertion of ribonucleotide units at appropriate sites so as to permit subsequent specific cleavages by pancreatic RNase, and (c) two-dimensional fingerprinting of the oligonucleotides in conjunction with partial exonucleolytic degradation, comprehensive nearest neighbor analyses, and the determination of pyrimidine tracts.
...
PMID:The nucleotide sequence in the promoter region of the gene for an Escherichia coli tyrosine transfer ribonucleic acid. 78 Mar 52

The chemical class of drugs known as the nitrosoureas are a recently developed group of very active alkylating-agent anticancer drugs which are best represented by BCNU, CCNU, and methyl-CCNU (meCCNU). The nitrosoureas are among the most active, if not the most active, anticancer drugs both quantitatively (log kill of sensitive tumor cells in vivo) and qualitatively (spectrum of mouse, rat, and hamster tumors responding to treatment). Therapeutic anticancer activity of the nitrosoureas has been consistently observed with oral as well as parenteral administration. The nitrosoureas are clearly the most active group of anticancer drugs observed against experimental meningeal leukemias and intracerebrally implanted transplantable primary tumors of central nervous system origin (eg, gliomas, ependymoblastomas, and astrocytomas in mice and hamsters). The nitrosoureas have been observed to be less than additive in lethal toxicity for vital normal cells in the mouse in combination with representatives of the other major classes of anticancer agents, eg, purine antagonists, pyrimidine antagonists, inhibitors of DNA polymerase(s) or ribonucleotide reductase(s), mitotic inhibitors, drugs that bind to or intercalate with DNA, and other alkylating agents. Therapeutic synergism against one or more transplantable or spontaneous tumors of mice, rats, or hamsters with one of several nitrosoureas in two-drug combinations with representatives of most of the major classes of anticancer agents listed above has been reported. With a number of advanced-stages mouse tumors, generally considered to be refractory to treatment with most anticancer agents, long-term cures have been obtained with combination-drug or combined-modality (surgery plus chemotherapy) treatment. The demonstrated lack of cross-resistance of several leukemias and solid tumors of mice selected for resistance to BCNU, meCCNU, or other alkylating agents suggests that the widely held opinion that all alkylating agents are very similar in biologic mechanism of action, and therefore resistance to one alkylating agent probably predicts cross-resistance to all alkylating agents, may no longer be tenable. If not, then alkylating-agent drug combinations, either used alone or combined with other treatment modalities (eg, surgery) which have been reported to result in therapeutic improvement in a number of experimental murine tumor systems, may be indicated for serious consideration as surgical adjuvant chemotherapy by surgeons or as primary therapy by medical oncologists.
...
PMID:Nitrosoureas: a review of experimental antitumor activity. 78 94

The interaction of 6-(phenylhydrazino)-pyrimidines and Bacillus subtilis DNA polymerase III was examined in experiments exploiting agarose gel filtration of mixtures of drug, DNA, and purified enzyme. 6-(p-Hdroxyphenylhydrazino)-uracil and 6-(p-hydroxyphenylhydrazino)-isocytosine were used as model inhibitors; both drugs induced the formation of a distinct polymerase-DNA complex. Comples formation required the inhibitory, hydrazino forms of the drugs and a form of DNA suitable as a primer-template for DNA polymerase III. dGTP and dATP, which respectively, competitively antagonize the inhibitory effects of the uracil and isocytosine derivatives, antagonized in an equally specific manner the respective capacities of these compounds to induce complex formation. Experiments exploiting both wild type and drug-resistant, mutant polymerases indicated that drug concentrations required for the half-maximal induction of complex formation were nearly identical with the apparent inhibitor constants (Ki) determined independently by kinetic analysis of enzyme inhibition. These results and those of experiments exploiting defined homopolymer-oligomer combinations as template-primers support a model of inhibitor action in which arylhydrazinopyrimidine forms a reversible, ternary complex with the enzyme and an appropriate timplate pyrimidine residue in an area adjacent to the 3-hydroxyl primer terminus.
...
PMID:Inhibition of Bacillus subtilis deoxyribonucleic acid polymerase III by phenylhydrazinopyrimidines. Demonstration of a drug-induced deoxyribonucleic acid-enzyme complex. 80 93

Excision repair of UV-damaged Bacillus subtilis transforming DNA has been carried out by a sequential enzyme system in vitro. Incision adjacent to the pyrimidine dimer in the DNA strand by correndonuclease II-initiated excision of the damage by the 5' in equilibrium 3'-directed exonuclease of the Micrococcus luteus DNA polymerase. Reinsertion of nucleotides into the gap in the strand by the DNA polymerase at 10 degrees C terminated in a single-strand break which was sealed by a polynucleotide ligase, thereby repairing the DNA strand. This restored biological activity to damaged DNA up to doses resulting in 60% inactivation of transforming activity. At higher doses, less repair was achieved, due to the development of double-strand breaks during the in vitro incision and excision steps.
...
PMID:Enzymatic repair of UV-irradiated DNA in vitro. 81 Dec 6

An endonuclease present in partially purified preparations of calf thymus DNA polymerase has been purified to homogeneity. It has a molecular weight of 53,000 +/- 2,500 as determined by sucrose gradient sedimentation. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate indicates the protein is composed of four subunits, each polypeptide possessing a molecular weight of 13,000. Its isoelectric point is 10.3 +/- 0.2. The endonuclease has a pH optimum at 6.6, requires Mg2+ or Mn2+ for activity, and does not attack RNA. The enzyme appears to be present in tissues other than calf thymus. The enzyme catalyzes the endonucleolytic cleavage of both denatured and native eukaryotic DNA. The enzyme introduces a limited number of single strand nicks into native DNA; hydrolysis of denatured DNA produces acid-soluble oligonucleotides. The average size of the limit product, sedimented in an alkaline sucrose gradient, is 1200 nucleotides for native DNA. The product contains 5'-phosphoryl and 3'-hydroxyl termini. While all four deoxynucleotides are found at the 5' termini, pyrimidine residues predominate. Calf thymus DNase V degrades closed circular duplex SV40 DNA and glucosylated T4DNA but not poly(dA-dT). The rate of hydrolysis of homopolymers is: poly(dT) greater than poly(dA) greater than poly(dC) greater than poly(dG) in the presence of Mg2+, and poly(dT) greater than poly(dC) greater than poly(dA) = poly(dG) in the presence of Mn2+.
...
PMID:Mammalian endonuclease, DNase V. Purification and properties of enzyme of calf thymus. 83 11

A pyrimidine octanucleotide complementary to one of the cohesive ends of P2 DNA was chemically synthesized. Its sequence, d(C-T-T-T-C-C-C-C-OH), was verified by labeling it at the 5' end, followed by partial enzyme digestion and separation by a two-dimensional fingerprinting system. A single ribo-G residue was added to its 3' end using calf thymus deoxynucleotidyl terminal transferase. The resulting nonanucleotide primer was used in a detailed study on the stability of the duplexes formed in the partial as well as complete repair synthesis catalyzed by DNA polymerase I, at 5 degrees C in the presence of 70 mM potassium phosphate and 70 mM NaCl. The nonanucleotide primer was able to form a stable duplex with P2 DNA template only in the presence of DNA polymerase I. When the chain lengths of pyrimidine oligonucleotides were varied from 4 to 8 to test their abilities to serve as primers for the enzymatic repair synthesis, it was revealed that the minimum length required for the primer function is 8. Using the nonanucleotide as the primer and the right-hand cohesive end of the DNA as the template, repair synthesis was initiated simultaneously at the 3' end of the primer as well as at the right-hand 3' end of the DNA. This resulted in a decrease in the efficiency of repair synthesis at the 3' end of the primer, possibly due to the displacement of the primer by the enzyme. The enzyme was unable to displace the primer, when the primer was extended to a 13-mer prior to the initiation of repair synthesis at the 3'-OH end of the DNA. These data suggest that the strand displacement by DNA polymerase I at 5 degrees C in the presence of 70 mM potassium phosphate and 70 mM NaCl is not significant when the duplex is at least 13 nucleotides long. The efficiency of the repair synthesis at the 3'-OH end of the DNA-primer duplex could be increased by blocking the repair synthesis at the 3'-OH end of the DNA by converting it to 3'- phosphate. This method could be useful in DNA sequence analysis, where such specific repair synthesis is desired.
...
PMID:Chemical synthesis of an octanucleotide complementary to a portion of the cohesive end of P2 DNA and studies on the stability of duplex formation with P2 DNA. 85 84

The DNA polymerase of Ustilago maydis is stimulated by a DNA binding protein from the same organism. Analysis of this stimulation shows that there is an increase in affinity for both substrates of the reaction. The apparent Km for deoxynucleoside triphosphates is decreased 3 fold, and that for denatured DNA by 4 fold. In both cases the maximum velocity (Vmax) is increased 1.2 to 1.4 fold. It is suggested that the variability in the affinity of the enzyme for deoxynucleoside triphosphates mediated by the binding protein may provide the basis for the UV sensitivity of pyrimidine auxotrophs in this organism.
...
PMID:The influence of DNA binding protein on the substrate affinities of DNA polymerase from Ustilago maydis: one polymerase implicated in both DNA replication and repair. 93 54

We have studied excision-repair of UV-irradiated phiX174 RFI DNA in vitro with UV-specific endonuclease from Micrococcus luteus (UV-endo), DNA polymerase I from Escherichia coli and DNA ligase from phage T4 infected E. coli. Excision-repair was measured a) by physico-chemical methods, i.e. by determination of the conversion of RF I DNA into RF II DNA by UV-endo and by the subsequent conversion of RF II DNA ligase, b) by biological methods i. e. by measuring the ability of the reaction product to form phages upon incubation with spheroplasts from the appropriate strains of E. coli. Using the first method, we have shown, that more than 90% of the pyrimidine dimers can be repaired in vitro; with the latter method we have shown, that the molecules which are repaired as defined by method a) have regained full biological activity. Exonuclease III was found to be not essential for excision-repair in vitro and also did not stimulate repair. From this result we conclude that UV-endo generates 3'OH endgroups, in agreement with results obtained by Hamilton et al. (1974). The usefulness of the method presented in this paper with regard to the study of excision-repair is discussed.
...
PMID:Physico-chemical and biological study of excision-repair of UV--irradiated phiX174 RF DNA in vitro. 105 35

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>