EC:2.4.2.30 - FACTA Search

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Query: EC:2.4.2.30 (PARP)
13,611 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Treatment of the Daudi Burkitt lymphoma-derived cell line with human interferon alpha, which inhibits cell proliferation in this system, induces differentiation of these B-lymphoid cells into cells with a plasmacytoid phenotype. This differentiation, quantified by the appearance of surface antigens characteristic of mature plasma cells, is impaired by addition to the culture medium of the ADP-ribosyltransferase (ADPRT; EC 2.4.2.30) inhibitors 3-methoxybenzamide or 3-aminobenzamide. These agents also protect the cells against the inhibition of proliferation induced by low doses of interferon alpha. In contrast, the large inhibition of thymidine incorporation into DNA caused by interferon treatment is not affected by the ADPRT inhibitors. The phorbol ester phorbol 12-tetradecanoate 13-acetate induces the same plasma cell surface antigens that are induced by interferon treatment, and this effect is also impaired by the ADPRT inhibitors. These results suggest that interferons and phorbol esters share a mechanism of action that requires ADPRT activity. Protection of the cells against the antiproliferative effect of interferons by the ADPRT inhibitors suggests that growth inhibition may be a consequence of cell differentiation. In contrast, the inhibition of thymidine incorporation alone is not sufficient for the cessation of cell proliferation and is not a true reflection of the rate of DNA synthesis.
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PMID:Induction of B-cell differentiation antigens in interferon- or phorbol ester-treated Daudi cells is impaired by inhibitors of ADP-ribosyltransferase. 311 50

The endogenous poly(ADP-ribosyl)--nonhistone protein conjugates were isolated from dimethyl-sulfate-treated rat hepatoma AH 7974 cells using aminophenylboronic-acid--agarose chromatography. Seven major components could be discerned on dodecyl sulfate gels (molecular mass 43, 60, 66, 86, 100, 110 and 170 kDa) while control cells indicated only slight staining at above 200 kDa. The most abundant conjugate formed in response to alkylation damage was further purified using preparative gel electrophoresis and identified on the basis of its intrinsic enzymic activity as automodified poly(APD-ribose) synthase. In addition, topoisomerase I activity was found associated with a 60-kDa peptide. ADP-ribosylated endonuclease and actin were not detect-able. The purified conjugate fraction contained maximally 8.8 nmol/mg ADP-ribose and 7.9 nmol/mg oligo(ADP-ribose) with a mean chain length of 2.3 residues. The modifying (ADP-ribosyl)n groups were attached to its acceptors by a hydroxylamine-insensitive bond and had practically no effect on the DNA affinity of either poly(ADP-ribose) synthase or topoisomerase I.
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PMID:Poly(ADP-ribose) synthase is the major endogenous nonhistone acceptor for poly(ADP-ribose) in alkylated rat hepatoma cells. 312 14

NAD+:Protein ADP-ribosyltransferase (EC 2.4.2.30) (ADPRT) was purified from human placenta by affinity chromatography. With the purified enzyme specific antibodies were raised and partial amino acid sequences were determined. To one of the amino acid sequences corresponding oligonucleotides were synthesized. A sized HeLa lambda gt11 cDNA library was constructed and screened. Positive clones were characterized to be ADPRT specific by immuno- and hybridization techniques. Clone ADPRT-G8 reacted with affinity chromatographically purified specific antibodies and with two specific oligonucleotides. The DNA of this clone detected an mRNA of about 4 kb, sufficient in size to code for the ADPRT with an Mr of 116,000. Partial sequence analysis of this clone confirmed its identity by revealing sequences which code for peptides which were found in cyanogen bromide (CNBr) fragments of the purified enzyme. The ADPRT-G8 clone was characterized with respect to its restriction pattern. The cloned ADPRT cDNA now opens the possibility to investigate the role of this enzyme in control of cellular functions.
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PMID:Isolation of a cDNA clone for human NAD+: protein ADP-ribosyltransferase. 312 32

Covalent modification of proteins by ADP-ribosylation is a major mode of protein regulation in eukaryotic cells. ADP-ribosyltransferases have been characterized from mammals but little is known about these enzymes in lower vertebrates. We purified an ADP-ribosyltransferase (E.C. 2.4.2.30) from trout (Salmo trutta faris) by affinity chromatography and characterized it. The 11,700-fold purified activity shows a major protein band at a molecular mass of 75,000 kDa in a SDS-polyacrylamide gel. In situ reactivation of SDS gels showed the 75,000 kDa protein to be enzymatically active, and additional enzymatically active bands at molecular masses of 115,000, 90,000 and 87,000 kDa, respectively. The enzyme is capable of poly-ADP-ribosylation. It crossreacts with affinity purified antibodies raised against human poly(ADP-ribose)synthetase and, except for the temperature optimum, its properties strongly resemble the mammalian enzymes, indicating the conserved character of nuclear ADP-ribosyltransferases. The trout enzyme is DNA- and histone-dependent, has an optimal pH between 8 and 9 and an apparent Km for NAD+ of 24 microM. The temperature optimum is 10 degrees C compared with 25 degrees C for the human enzyme. Known ADP-ribosyltransferase inhibitors also inhibit the enzyme from trout.
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PMID:ADP-ribosyltransferase is highly conserved: purification and characterization of ADP-ribosyltransferase from a fish and its comparison with the human enzyme. 312 83

ADP-ribosyltransferases from several higher eukaryotes have been purified and characterized, but little is known about ADP-ribosyltransferases in lower eukaryotes. We have purified an ADP-ribosyltransferase (EC 2.4.2.30) from Helix pomatia. The enzyme has an apparent Km of 26.7 microM. Optimal conditions for the enzyme reaction are 17.5 degrees C and pH 8. The time course is linear during the first 10 min of the reaction. The enzyme is capable of poly-ADP-ribosylation. The most highly purified preparation shows one major band at an Mr of 75,000 on electrophoresis in an SDS/polyacrylamide gel, with minor bands at Mr 115,000 and 155,000. Re-activation of SDS/polyacrylamide gels in situ shows the 75,000-Mr band to be enzymically active and additional active bands with Mr values of 115,000, 90,000 and 87,000 respectively. The 115,000-Mr and 75,000-Mr bands cross-react with a polyclonal affinity-purified antiserum against human ADP-ribosyltransferase. Like enzymes from higher eukaryotes, the activity from Helix pomatia is inhibited by thymidine, theophylline, theobromine nicotinamide, 3-methoxybenzamide and 3-aminobenzamide, and is dependent on histone and DNA.
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PMID:ADP-ribosyltransferase from Helix pomatia. Purification and characterization. 312 18

We have investigated the effect of inhibitors of ADP-ribosyltransferase on the cytotoxicity of a range of S-phase acting drugs. Co-administration of 3 mM 3-aminobenzamide (3AB) potentiated the cytotoxicity of TG 2-fold, but had no effect on the cytotoxicity of HU, FdUrd or araC. Higher concentrations of benzamides (e.g. 10-20 mM 3AB) produced a G1-specific cell cycle blockade. This treatment prevented cells entering S-phase DNA synthesis and consequently protected against the cytotoxicity of the same S-phase acting drugs. Thus, using different treatment regimens with 3AB, it was possible to either potentiate or protect against the cytotoxicity of TG.
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PMID:Adenosine-diphosphoribosyltransferase inhibitors can protect against or potentiate the cytotoxicity of S-phase acting drugs. 313 71

Leishmania mexicana amazonensis amastigotes were induced to differentiate by incubation at 27 C. Morphological transformation was studied both in untreated cultures and in cultures where DNA synthesis, and consequently the final stage in the production of promastigotes, was inhibited by hydroxyurea. 3-Methoxybenzamide and other antagonists of ADP-ribosyltransferase (ADPRT) specifically inhibited differentiation at a very early stage in both experimental systems. Cell proliferation (in the absence of hydroxyurea) was not inhibited by ADPRT antagonists--indeed greater multiplication of undifferentiated parasites was observed in the presence of these compounds. This indicated that the parasites were being diverted from differentiation to proliferation. Preincubation of the amastigotes with the ADPRT antagonists was required to produce this effect, providing further evidence that ADP-ribosylation of proteins is required for the initiation of differentiation in Leishmania.
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PMID:Leishmania mexicana amazonensis: ADP-ribosyltransferase antagonists specifically inhibit amastigote to promastigote differentiation. 313 1

DNA probes specific for an internal portion of the toxA and regA genes were used to examine the synthesis of mRNA during the growth cycle of P. aeruginosa PA103. RNA dot blot analysis revealed that in a low-iron growth medium, the synthesis of regA and toxA mRNA followed a biphasic expression pattern. Analysis of ADP-ribosyltransferase activity also indicated that an early and late phase of exotoxin A synthesis occurred. Utilizing an internal SalI probe, examination of the size distribution of the regA mRNA during the cell cycle indicated that a large transcript (T1) was present at early time points, followed by the appearance of a smaller transcript (T2) during late exponential to early stationary phase. An upstream AvaI regA probe was found to hybridize to the T1 transcript but not to the T2 transcript. The data indicate that at least two separate functional regA mRNA species were produced. Analysis of mRNA accumulation for the regA gene when cells were grown in high-iron medium provided additional evidence for two separately controlled transcripts being produced from the regA chromosomal locus. Both regA transcripts were correlated with exotoxin A transcription and production.
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PMID:Kinetics of toxA and regA mRNA accumulation in Pseudomonas aeruginosa. 313 28

Methods for studying breaks in DNA strands and their repair, originally developed for prokaryotes and cultured cell lines, have been applied to preparations from rat brain. The relative sensitivities of these methods, which include alkaline sucrose density gradient sedimentation, nucleoid sedimentation, and ADP-ribosyltransferase assay, are compared.
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PMID:Studies on DNA damage and repair in the mammalian brain. 313 32

Adenyl-32P-Labeled 3'-deoxy-NAD+ was utilized as a substrate by pure DNA-dependent poly(ADP-ribose)polymerase (EC 2.4.2.30) from calf thymus in the automodification reaction with an apparent Km of 20 microM and a Vmax of 80 nmol/min/mg of protein. Analysis by lithium lauryl sulfate-polyacrylamide gel electrophoresis revealed a single 32P-labeled protein of 116-kDa which comigrated with automodified enzyme. Addition of increasing amounts of histone H1 up to a concentration of 15 micrograms/ml stimulated the synthesis of protein-bound polymers of 3'-deoxy-ADP-ribose. However, the average polymer size was equal to 2 in the presence and 4 in the absence of histone H1, respectively. The synthesis of protein-bound oligomers of 3'-deoxy-ADP-ribose was inhibited by the polymerase inhibitors benzamide, nicotinamide, thymidine, and NaCl. A pulse labeling of polymer synthesis with 40 microM [32P]3'-deoxy-NAD+ either in the presence or absence of 15 micrograms/ml of histone H1, followed by a chase with 1 mM [3H]NAD+, was used to determine the mechanism of poly(ADP-ribose) elongation. Following enzyme digestion of these polymers with phosphodiesterase, it was found that 52 and 24% of the total 32P radiolabel was associated with the 3'-deoxy-AMP termini of the polymers synthesized in the pulse reactions, in the presence or absence of histone H1, respectively. In contrast, less than 10% of the total radioactivity was associated with 3'-deoxy-AMP in the product of the chase reactions. These results are consistent with the conclusion that the initially attached residue of 3'-deoxy-ADP-ribose to either the polymerase or histone H1, is elongated by the "protein-distal" addition of ADP-ribose residues to the AMP terminus of the growing polymer chain.
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PMID:3'-Deoxy-NAD+ as a substrate for poly(ADP-ribose)polymerase and the reaction mechanism of poly(ADP-ribose) elongation. 314 24

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