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)

Inhibition of DNA polymerase from oncorna viruses by a new class of macromolecular inhibitors is reported. The macromolecule, designated as mercaptopolycytidylic acid (MPC), is a chemically modified polycytidylic acid containing 5-SH cytidylic bases in the polymerase. Partially thiolated polycytidylic acids (MPC I-III, containing 1.7%, 3.5%, and 8.6% 5-mercaptocytidylate units, respectively) inhibited the DNA-polymerase of Friend leukemia virus (FVL) in the endogenic reaction as well as in the presence of poly rA-(dT)14 or poly (dA-dT) templates; the inhibitory activities were directly related to the percent of tholation. In a bacterial DNA polymerase (E coli-K12 with denatured calf thymus DNA as template) MPCI-III showed no activity. Biological experiments showed that MPC III inhibits the leukemogenic potential of cell-free spleen extracts from FVL-infected mice to about 60%, measured on the basis of spleen weight. The enzymatic and animal experiments have led us to carry out preliminary clinical trials in some cases of Children leukemia. These cases, resistent to the known therapeutic regimes (combination chemotherapy), responded well when treated with MPC along, or in combination with poly I. The experiments indicate that the development of modified polynucleotids with structural similarities to functional templates may be of potential use in the future chemotherapy of leukemia.
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PMID:[Inhibition of viral reverse transcriptase and leukemogenesis by modified nucleic acids (author's transl)]. 4 86

The induction of erythroid differentiation in the T3-C12 clone of Friend leukemia cells by dimethyl sulfoxide is accompanied by reduction in viral RNA-dependent DNA polymerase activity with increased cellular delta-aminolevulinic acid synthetase activity and hemoglobin synthesis. These cells were treated with a variety of compounds to determine whether other durgs are capable on inducing erythroid differentiation. While several hormones, inhibitors of RNA synthesis, organic solvents, inhibitors of DNA polymerase, sulfhydryl inhibitors, and inducers of delta-aminolevulinic acid synthetase administered singly did not stimulate hemoglobin synthesis like dimethyl sulfoxide, inhibitors of DNA and RNA synthesis such as adriamycin, mitomycin C, and hydroxyurea:mithramycin were synergistic in stimulating erythroid differentiation.
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PMID:Erythroid differentiation in cultured Friend leukemia cells treated with metabolic inhibitors. 5 26

Partially thiolated polycytidylic acids MPC I-III, containing 1.7%, 3.5% and 8.6% 5-mercaptocytidylate units, respectively) inhibited the DNA polymerase of Friend leukemia virus (FLV) in the endogenic reaction as well as in the presence of poly(A)-(dT)14 or poly[d(a-T)] templates; the inhibitory activities were directly related to the percent of thiolation. Various partially thiolated RNA and DNA isolates from Ehrlich ascites cells (containing one 5-mercaptopyrimidine nucleotide/50-100 nucleotide units) also inhibited the DNA polymerases of FLV in the endogenic reaction, and also in the presence of the synthetic templates. The thiolated DNA was the most active, but the thiolated tRNA also showed substantial inhibitory effects, while the thiolated ribosomal RNA was less effective. In a bacterial DNA polymerase (E. coli-K12, using denatured DNA as template), MPC I-III showed no activity. By contrast, MPC III and several partially thiolated nucleic acid isolates significantly inhibited a regenerating rat liver DNA polymerase (I) system; among those tested, the thiolated DNA from Ehrlich ascites cells showed the highest activity. Kinetic analysis of the inhibitory action of this thiolated DNA in the rat liver enzyme system, using as template the corresponding unmodified DNA, demonstrated that the thiolated DNA acts as a competitive inhibitor of the template, with a Ki/Km ratio of 0.5.
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PMID:Polynucleotides containing 5-mercapto-substituted pyrimidines: inhibition of viral DNA polymerases and the biological implication. 110 89

The effect of the triphosphate of 9-(2-hydroxyethoxymethyl)guanine (acyclovir, acycloguanosine) on cellular alpha deoxyribonucleic acid (DNA) polymerases (DNA nucleotidyltransferases), DNA polymerases of several members of the herpes group, vaccinia virus DNA polymerase, and Friend leukemia virus ribonucleic acid-dependent DNA polymerase was examined. Several viruses, which were found to be susceptible to acyclovir, were found to induce DNA polymerases which were sensitive to acyclovir triphosphate (acyclo-GTP). Human cytomegalovirus and the H29R strain of herpes simplex virus type 1, however, were found to be relatively insusceptible to acyclovir, even though their induced DNA polymerases were inhibited by low concentrations of acyclo-GTP. The amount of acyclovir anabolized to acyclo-GTP was significantly lower for human cytomegalovirus and H29R than for the more susceptible viruses. Vaccinia virus and Friend leukemia virus induced DNA polymerases which were insensitive to inhibition by low concentrations of acyclo-GTP, anabolized little acyclovir to acyclo-GTP, and were found to be insensitive to inhibition by acyclovir. Uninfected WI-38 cells were not susceptible to inhibition by acyclovir, anabolized little acyclovir to acyclo-GTP, and had an alpha DNA polymerase which was insensitive to inhibition by low concentrations of acyclo-GTP.
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PMID:Inhibition of cellular alpha and virally induced deoxyribonucleic acid polymerases by the triphosphate of acyclovir. 719 34