Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.31.1 (micrococcal nuclease)
 2,818 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

RNA ligase isolated from Escherichia coli infected with bacteriophage T4 will catalyze the formation of an intermolecular 3' leads to 5' phosphodiester linkage between an oligoribonucleotide with a free 3'-hydroxyl and another oligoribonucleotide with a 5'-phosphate. Upon reaction with (Ap)5C, nearly quantitative conversion of the hexamer [5'-32P]p(Up)5U to the dodecamer (Ap)5C[3' leads to 5'-32P]p(Up)5U was observed. The product was identified by its mobility on RPC-5 column chromatography, its resistance to alkaline phosphatase, and the appearance of the expected radiolabeled products on hydrolysis with alkali, ribonuclease A, snake venom phosphodiesterase, and spleen phosphodiesterase. The coupling of other pairs of single-stranded oligoribonucleotides has also been demonstrated. The intermolecular joining reaction is probably mechanistically similar to the intramolecular cyclization activity previously reported for Tr RNA ligase. It is expected that this enzyme will be useful for the synthesis of RNA fragments of defined sequence.
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PMID:T4-induced RNA ligase joins single-stranded oligoribonucleotides. 109 Sep 29

Phthalocyanine mediated photosensitization of 2'-deoxyguanosine (dG) in oxygen saturated aqueous solution has previously been shown to result in the addition of molecular oxygen to the guanine base generating the 4R* and 4S* diastereoisomers of 4,8-dihydro-4-hydroxy-8-oxo-2'-deoxyguanosine (dO) (the asterisk denotes unambiguous assignment of the 4R and 4S diastereoisomers). The data presented here show that the same guanine modified bases are generated in a 1:1 ratio when thymidylyl-(3',5')-2'-deoxyguanosine (d(TpG)) is similarly photo-oxidized. These modified dinucleoside monophosphates, labelled d(TpO)-A and -B, have been isolated by high performance liquid chromatography and characterized by proton NMR spectrometry, fast atom bombardment mass spectrometry, and enzymatic digestions. Photosensitization in D2O instead of H2O leads to an increase in the rate of d(TpO) formation that is consistent with a type II (singlet oxygen) reaction mechanism. Three interesting properties of these modified dinucleoside monophosphates are: i) the rate of their digestion with spleen phosphodiesterase is greatly reduced relative to d(TpG), ii) they are not digested by snake venom phosphodiesterase, and iii) they are stable to 1.0 M piperidine at 90 degrees C for 30 min. The latter observation indicates that 4,8-dihydro-4-hydroxy-8-oxoguanine is not a base lesion responsible for the strand breaks observed following hot piperidine treatment of DNA exposed to type II photosensitizers or chemically generated singlet oxygen.
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PMID:Photooxidation of d(TpG) by phthalocyanines and riboflavin. Isolation and characterization of dinucleoside monophosphates containing the 4R* and 4S* diastereoisomers of 4,8-dihydro-4-hydroxy-8-oxo-2'-deoxy-guanosine. 132 29

Dinucleoside monophosphates in which the 5' nucleoside contained a radiation-modified base were tested as substrates to bovine spleen phosphodiesterase (SPD) and snake venom phosphodiesterase. The radiation-modified bases included thymine glycols, 5-hydroxymethyluracil, 8-hydroxyguanine, and a formamido remnant of thymine. The lesions had widely different effects on diesterase action, varying from little inhibition, as in the case of digestion of dT*pA by SPD, where T* is the hydroxymethyluracil modification, to severe inhibition, as in the case of digestion of dG*pC by SPD, where G* is the 8-hydroxyguanine modification.
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PMID:Enzymatic excision of radiation-induced lesions from DNA model compounds. 185 May 32

The restricted ability of deoxyribonuclease I/snake venom phosphodiesterase digestion to liberate deoxyadenosine (dA) nucleotide adducts of polycyclic aromatic hydrocarbons from DNA, first observed by Dipple and Pigott with the bay-region diol epoxide adducts of 7,12-dimethylbenz[a]anthracene, has been observed with the dA adducts of benz[a]anthracene and benzo[c]phenanthrene diol epoxides. The micrococcal nuclease/spleen phosphodiesterase digestion used in the original 32P postlabeling procedure developed by Randerath to determine DNA adducts also failed to liberate dA nucleotide adducts quantitatively. Thus either method can potentially lead to an underestimation of the extent to which dA has been modified in DNA. The two digestion procedures exhibit systematic and mostly opposite stereoselectivity in the pattern of which dA adducts are resistant to digestion, which suggest that these adducts may have preferred orientations within modified DNA that are determined by whether they have the R or S configuration at C-1, the point of attachment between the exocyclic amino group of dA and the hydrocarbon; this in turn is dictated by the configuration about the precursor benzylic epoxide carbon and the cis versus trans nature of epoxide opening during adduct formation.
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PMID:Stereoselective release of polycyclic aromatic hydrocarbon-deoxyadenosine adducts from DNA by the 32P postlabeling and deoxyribonuclease I/snake venom phosphodiesterase digestion methods. 196 69

Our recent findings suggest that enzymatic hydrolysis of the intradimer phosphodiester bond may constitute the initial step in the repair of UV light-induced cyclobutane pyrimidine dimers in human cells. To examine the susceptibility of this phosphodiester linkage to enzyme-mediated hydrolysis, the trinucleotide d-Tp-TpT was UV-irradiated and the two isomeric compounds containing a cis-syn-cyclobutane dimer were isolated by high performance liquid chromatography and treated with various deoxyribonucleases. Snake venom phosphodiesterase hydrolyzed only the 3'-phosphodiester group in the 5'-isomer (d-T less than p greater than TpT) but was totally inactive toward the 3'-isomer (d-TpT less than p greater than T). In contrast, calf spleen phosphodiesterase only operated on the 3'-isomer by cleaving the 5'-internucleotide bond. Kinetic analysis revealed that (i) the activity of snake venom phosphodiesterase was unaffected by a dimer 5' to a phosphodiester linkage, (ii) the action of calf spleen phosphodiesterase was partially inhibited by a dimer 3' to a phosphodiester bond, and (iii) Escherichia coli phr B-encoded DNA photolyase reacted twice as fast with d-T less than p greater than TpT as with d-TpT less than p greater than T. Mung bean nuclease, nuclease S1, and nuclease P1 all cleaved the 5'-internucleotide linkage, but not the intradimer phosphodiester bond, in d-TpT less than p greater than T. Both phosphate groups in d-T less than p greater than TpT were refractory to mung bean nuclease or nuclease S1. Incubation of d-T less than p greater than TpT with nuclease P1, however, generated the novel compound dT less than greater than d-pTpT containing a severed intradimer phosphodiester linkage. Accordingly, nuclease P1 represents the first purified enzyme known to hydrolyze an intradimer phosphodiester linkage.
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PMID:Enzymatic analysis of isomeric trithymidylates containing ultraviolet light-induced cyclobutane pyrimidine dimers. I. Nuclease P1-mediated hydrolysis of the intradimer phosphodiester linkage. 253 79

Partial depurination of d-ApA produced two UV260nm-absorbing isomers, d-SpA and d-ApS (where S represents the depurinated deoxyribose sugar), that provided simple model compounds with which to examine, by HPLC, the response of nucleases to phosphodiester bonds flanked 3' or 5' by an apurinic site. The structural identity of each compound was established by (i) reaction with methoxyamine to confirm the presence of an abasic deoxyribose group, and (ii) degradation of d-SpA under mild alkaline conditions to distinguish it from d-ApS. At an enzyme concentration which led to complete hydrolysis of d-ApA, snake venom phosphodiesterase readily cleaved d-SpA to 5'-dAMP but had no discernible effect on d-ApS. Calf spleen phosphodiesterase also failed to act on one isomer, in this instance d-SpA, but additionally reacted at a much slower rate (approximately 100 fold) with d-ApS than with d-ApA. Three single-strand specific endonucleases, nuclease P1, nuclease S1 and mung bean nuclease, all responded in an identical manner, hydrolysing d-ApS but not d-SpA. The possibility that the aldehyde group at the AP sites might be responsible for some of these observations was rejected after repeating the enzyme digestions with the methoxyamine-capped molecules and observing no differences from the reactions with d-SpA and d-ApS.
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PMID:Selective hydrolysis by exo- and endonucleases of phosphodiester bonds adjacent to an apurinic site. 254 53

A new sensitive 32P-postlabeling assay for DNA adducts has been developed in which DNA is hydrolyzed initially by nuclease P1 and prostatic acid phosphatase instead of micrococcal nuclease and spleen phosphodiesterase as employed in previous postlabeling procedures. When DNA containing bulky adducts, X1, X2, .....Xn, is digested with nuclease P1 at pH 5, normal nucleotides are released as 5'-monophosphates, pN, while adducts are excised as 5'-phosphorylated dinucleotides, pXipN, because internucleotide linkages on the 3' side of X resist attack by nuclease P1. Addition of prostatic acid phosphatase to such a digest results in 5'-dephosphorylation of the nucleotides to normal nucleosides, N, and adducted dinucleotides, XipN, carrying a 5'-terminal free hydroxyl group. The dinucleotides but not nucleosides are converted to 5'-32P-labeled dinucleotides, [32P]pXipN, by T4 polynucleotide kinase-catalyzed [32P]phosphate transfer from [gamma-32P]ATP. Upon mapping on polyethyleneimine--cellulose anion-exchange TLC, the labeled dinucleotide adducts produce characteristic autoradiographic fingerprints. Alternatively, they are further digested with snake venom phosphodiesterase to yield 5'-monophosphates, [32P]pXi and pN. TLC profiles of the monophosphate adducts are distinct from those of the dinucleotides. These reactions provide the basis of the new 32P-postlabeling scheme, which is compared in this paper with a previously reported protocol yielding adducts in the form of 5'-32P-labeled 3',5'-bisphosphates, [32P]pXip. The results show that the availability of three different types of 32P-postlabeled derivatives for the same adduct aids in the analysis and chromatographic characterization of DNA adducts from diverse exogenous and endogenous sources.
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PMID:A new sensitive 32P-postlabeling assay based on the specific enzymatic conversion of bulky DNA lesions to radiolabeled dinucleotides and nucleoside 5'-monophosphates. 254 10

DNA was subjected to bisulfite-catalyzed transamination at the N4 sites of its cytosine residues with 1,8-diaminooctane (DAO). The product, DNA-DAO, was non-specifically degraded with a cloned staphylococcal nuclease (Nase). The products from the Nase digestion were determined by high-performance liquid chromatography (HPLC) to define the extent of reaction with DAO. Mostly, nucleoside 3'-monophosphates were obtained, along with four Nase-resistant dinucleotides: TpdGp, dApdGp, TpdCp-DAO and dApdCp-DAO. The addition of spleen phosphodiesterase II gave a faster hydrolysis and left no dinucleotides. A mixture of Nase, snake venom phosphodiesterase I and alkaline phosphatase gave a fast hydrolysis as well but two dinucleotides, apparently TpdC-DAO and dApdC-DAO, persisted. Further modification of the diaminooctyl side chains with fluorescein isothiocyanate or biotin N-hydroxysuccinimide ester was similarly investigated. Interestingly, derivatization of the DAO side chain with biotin eliminates the resistance of TpdCp-DAO and dApdCp-DAO to Nase digestion. This work provides some guidelines for using Nase, alone or with other nucleases, along with HPLC, for characterizing alkyldiamine DNA products, and should be similarly useful for studying other modifications of DNA.
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PMID:Staphylococcal nuclease high-performance liquid chromatographic characterization of diaminooctane-modified DNA and its biotin and fluorescein derivatives. 284 10

o-Phosphotyrosyl glutamine synthetase (P-GS) was isolated from highly adenylated glutamine synthetase (AMP-GS) purified from Mycobacterium phlei, by treatment with micrococcal nuclease. The physical characteristics of P-GS were quite similar to those of AMP-GS except for the UV-absorption spectrum. In either Mg2+- or Mn2+-dependent biosynthetic reactions, the kinetic properties, such as optimum pH, Vmax, and apparent Km for each of three substrates of P-GS, were found to be in good agreement with those of AMP-GS. The biosynthetic activity of P-GS was markedly increased after treatment with alkaline phosphatase similarly as in the deadenylylation of AMP-GS by snake venom phosphodiesterase treatment. These results revealed that repression of glutamine synthetase activity simply requires the phosphorylation of the tyrosyl residue, without recourse to adenylylation.
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PMID:Regulation of glutamine synthetase activity by phosphorylation instead of by adenylylation. 290 54

The synthesis of the p-nitrophenyl esters of the 5'- and 3'-phosphates of the nucleoside analogue 2',3'-secouridine are described. Unlike the corresponding diesters of thymidine, these two compounds are diastereoisomers. Their affinity for phosphodiesterases types I and II were investigated. Both analogues were hydrolysed very slowly by snake venom phosphodiesterase but their affinity for the enzyme was similar to that of the p-nitrophenyl ester of thymidine 5'-monophosphate of which they were both competitive inhibitors with Ki approximately Km. Neither compound was hydrolysed by spleen phosphodiesterase but both competitively inhibited the p-nitrophenyl ester of thymidine 3'-monophosphate, with Ki's slightly higher than the Km. Although for each enzyme the Ki of the correct analogue phosphodiester (i.e. the 5'-derivative for snake venom and the 3'-derivative for spleen) was the lower, the absolute specificity seen for the normal substrates had been lost.
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PMID:Synthesis of two diastereoisomeric p-nitrophenyl phosphodiesters of 2',3'-secouridine and their affinity for phosphodiesterases. 301 46


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