EC:3.1.30.2 - FACTA Search

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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sequences of human beta-globin mRNA were determined by analysis of complementary DNA. beta-mRNA was transcribed into double-stranded cDNA by RNA-dependent DNA polymerase. cDNA was cut by restriction endonucleases and the fragments were terminally labeled by means of polynucleotide kinase and [gamma-32P]ATP. After purification, fragments were degraded by snake venom phosphodiesterase. Alternatively single-stranded [32P]cDNA was prepared by transcription in the presence of [alpha-32P]dCTP and actinomycin D; the product was digested by endonuclease IV and degraded by snake venom phosphodiesterase. cDNA tracts obtained by both labeling methods enabled us to construct a sequence for the translated and 3'-terminal untranslated regions of human beta-mRNA.
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PMID:Human beta-globin messenger RNA. III. Nucleotide sequences derived from complementary DNA. 6 58

A homogeneous preparation of venom phosphodiesterase from Crotalus adamanteus possesses an intrinsic endonuclease activity, specific for superhelical (form I) and single-stranded DNA. The phosphodiesterase degrades single-stranded T7 DNA by endonucleolytic cleavages. Duplex T7 DNA is hydrolyzed by the liberation of acid-soluble products simultaneously from the 3' and 5' termini but without demonstrable internal scissions in duplex regions. Since venom phosphodiesterase is known to hydrolyze oligonucleotides stepwise from the 3' termini, the cleavage at the 5' end of duplex T7 DNA is ascribed to an endonuclease activity. Form I PM2 DNA is nicked to yield first relaxed circles and then linear DNA which is subsequently hydrolyzed only from the chain termini. The linear duplex DNA intermediates consist of a discrete series of fragments (11 are usually resolved on agarose gels) with initial molecular weights ranging from 6.3 x 10(6) (the intact PM2 DNA size) to approximately 1 x 10(6). The cleavage of the form I molecule must, therefore, occur at a limited number of unique sites. The enzyme also cleaves nonsuperhelical, covalently closed circular PM2 DNA but at a 10(4) times slower rate. Both the endonuclease activity on form I DNA and the known exonuclease activity co-migrate on polyacrtkanude gels, are optimally active at pH 9, are stimulated by small concentrations of Mg2+, and are similarly inactivated by heat, reducing agents, and EDTA.
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PMID:An endonuclease activity of venom phosphodiesterase specific for single-stranded and superhelical DNA. 20 Jun 16

A single strand specific endonuclease, venom phosphodiesterase, acting on superhelical phiX174 DNA, inflicts at least seven specific cleavages. Six of these were located to within approximately +/-40 base-pairs by mapping with restriction endonucleases. They are at 12%, 27.4%, 42.7%, 47.5%, 76.1%, and 82.5%. All of these sites lie within regions containing runs of 16 or more base-pairs, of which 12 or more are A and T. Other similarly (A + T)-rich regions in the genome are not cleaved by the enzyme. Increasing the superhelical density of the substrate did not alter the locations of the cleavage sites. There is no correlation between the locations of the cleavage sites and the three known major promoter sites. Only two of five postulated transcription termination sites are cleaved by phosphodiesterase even though all of these terminators contain (A + T)-rich regions. The area containing the origin of viral DNA replication, which includes an (A + T)-rich sequence, is not cleaved.
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PMID:Specific cleavages inflicted by venom phosphodiesterase on superhelical phiX174 DNA. 21 23

We have isolated and partially purified a DNA endonuclease from nuclei of the yeast Saccharomyces cerevisiae. Although purified on the basis of its ability to degrade denatured DNA, the enzyme can also attack native DNA. Denatured oligonucleotide products of the enzyme are sensitive to venom phosphodiesterase (EC3.1.4.1.) but not to bovine spleen phosphodiesterase (EC3.1.4.18). The enzyme has an estimated molecular weight of 6.6--7.5 X 10(4), more than twice as large as the endonucleases involved in DNA repair in Escherichia coli. When analyzed on glycerol gradients, the endonuclease sedimented as a single activity against both denatured DNA and closed circular DNA duplexes. The enzyme showed a 10-fold preference for denatured over native T7 DNA substrate, and appears to produce random nicks in a supercoiled replicative form of phiX174 DNA (RFI) with no discernable preference for the unpaired bases in the supercoiled duplex. The endonuclease appears to be distinct from the yeast endonucleases previously described.
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PMID:A DNA endonuclease isolated from yeast nuclear extract. 34 80

Extracts of interferon-treated HeLa cells adsorbed to poly(I) . poly(C)-agarose have been used to synthesize 2'5'oligo(A). This oligonucleotide has been characterized by enzymatic digestion with alkaline phosphatase, snake venom phosphodiesterase, T2 ribonuclease and chromatography on DEAE, and PEI-cellulose. The oligonucleotide inhibits protein synthesis in vitro and activates an endonuclease present in extracts of control and interferon-treated cells. The metabolic stability of 2'5'oligo(A) has been investigated in these cell extracts. The oligonucleotide undergoes rapid degradation, particularly in the absence of ATP and of an energy regenerating system. Furthermore, the 2'5'oligo(A)-activated endonuclease reverts to an inactive state under these conditions, but can be reactivated upon further addition of 2'5'oligo(A). A possible role for the degradation of 2'5'oligo(A) in the mechanism of interferon action is discussed.
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PMID:Metabolic stability of 2' 5'oligo (A) and activity of 2' 5'oligo (A)-dependent endonuclease in extracts of interferon-treated and control HeLa cells. 42 14

The major apurinic (AP) DNA-binding protein was purified from a HeLa cell line and from the SV40-transformed cell line AT5BIVA derived from a patient with the repair deficiency syndrome ataxia telangiectasia (AT). This protein appears to be identical with the major cellular apurinic/apyrimidinic endonuclease. The two endonucleases differ in their molecular weight (HeLa, 37,600; AT, 38,900) and their dissociation equilibrium constant for AP sites (HeLa, 7.8 X 10(-11) M; AT, 28.3 X 10(-11) M). These variances might be the consequence of a different post-translational modification. Evidence for this interpretation stems from the observation that the AP DNA binding activity of AP endonuclease, as measured in a glass-fiber filter binding assay, is inactivated upon incubation with snake venom phosphodiesterase and that the AP endonuclease from AT cells in 5-10-fold more sensitive than the HeLa enzyme. For both enzymes, the diesterase treatment leads to the formation of a protein of Mr 35,500 which might be the unmodified precursor of AP endonuclease. The loss of AP DNA binding does not reduce but rather increases the catalytic activity of AP endonuclease when measured at excess substrate concentration.
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PMID:Comparison of apurinic DNA-binding protein from an ataxia telangiectasia and a HeLa cell line. Evidence for an altered processing of apurinic/apyrimidinic endonuclease. 241 10

The oligonucleotide [5'-32P]pdT8d(-)dTn, containing an apurinic/apyrimidinic (AP) site [d(-)], yields three radioactive products when incubated at alkaline pH: two of them, forming a doublet approximately at the level of pdT8dA when analysed by polyacrylamide-gel electrophoresis, are the result of the beta-elimination reaction, whereas the third is pdT8p resulting from beta delta-elimination. The incubation of [5'-32P]pdT8d(-)dTn, hybridized with poly(dA), with E. coli endonuclease III yields two radioactive products which have the same electrophoretic behaviour as the doublet obtained by alkaline beta-elimination. The oligonucleotide pdT8d(-) is degraded by the 3'-5' exonuclease activity of T4 DNA polymerase as well as pdT8dA, showing that a base-free deoxyribose at the 3' end is not an obstacle for this activity. The radioactive products from [5'-32P]pdT8d(-)dTn cleaved by alkaline beta-elimination or by E. coli endonuclease III are not degraded by the 3'-5' exonuclease activity of T4 DNA polymerase. When DNA containing AP sites labelled with 32P 5' to the base-free deoxyribose labelled with 3H in the 1' and 2' positions is degraded by E. coli endonuclease VI (exonuclease III) and snake venom phosphodiesterase, the two radionuclides are found exclusively in deoxyribose 5-phosphate and the 3H/32P ratio in this sugar phosphate is the same as in the substrate DNA. When DNA containing these doubly-labelled AP sites is degraded by alkaline treatment or with Lys-Trp-Lys, followed by E. coli endonuclease VI (exonuclease III), some 3H is found in a volatile compound (probably 3H2O) whereas the 3H/32P ratio is decreased in the resulting sugar phosphate which has a chromatographic behaviour different from that of deoxyribose 5-phosphate. Treatment of the DNA containing doubly-labelled AP sites with E. coli endonuclease III, then with E. coli endonuclease VI (exonuclease III), also results in the loss of 3H and the formation of a sugar phosphate with a lower 3H/32P ratio that behaves chromatographically as the beta-elimination product digested with E. coli endonuclease VI (exonuclease III). From these data, we conclude that E. coli endonuclease III cleaves the phosphodiester bond 3' to the AP site, but that the cleavage is not a hydrolysis leaving a base-free deoxyribose at the 3' end as it has been so far assumed. The cleavage might be the result of a beta-elimination analogous to the one produced by an alkaline pH or Lys-Trp-Lys. Thus it would seem that E. coli 'endonuclease III' is, after all, not an endonuclease.
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PMID:Escherichia coli endonuclease III is not an endonuclease but a beta-elimination catalyst. 243 70

Under certain circumstances sequence-specific inhibition of gene expression may be achieved in intact cells using exogenous anti-sense oligodeoxynucleotides. The efficacy of this approach to investigating gene function is limited in part by the rapid serum nuclease mediated degradation of oligodeoxynucleotides in culture media. In order to determine the relative contributions of 3'-exonuclease, 5'-exonuclease and endonuclease activity in fetal calf serum to oligodeoxynucleotide destruction, we have tested chimeric N-ras anti-sense sequence molecules protected against exonuclease attack with terminal methylphosphonate diester linkages. An 18-mer with two methylphosphonate diester linkages at the 3'-terminus, a 20-mer with two methylphosphonate diester groups at both ends, and the 16-mer 3'-methylphosphonate monoester components of their respective piperidine hydrolysates were totally resistant to venom phosphodiesterase, whereas the 16-mer 3'-hydroxyl components of the hydrolysates were rapidly degraded. Both the chimeric oligodeoxynucleotides and 3'-methylphosphonate monoesters were considerably more stable than normal 3'-hydroxyl oligodeoxynucleotides at 37 degrees C in McCoy's 5A medium containing 15% heat inactivated fetal calf serum. Typically 20-30% of the former (initial concentration 10-100 microM) remained intact at 20 h as compared to the latter which were 88-100% degraded in 4 h and undetectable at 20 h. We conclude that a 3'-phosphodiesterase activity is a predominant nuclease responsible for oligodeoxynucleotide degradation by fetal calf serum, and that for cell culture studies, significant protection of oligodeoxynucleotides may be achieved by incorporating 3'-terminal methylphosphonate diester or even monoester end groups.
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PMID:Partial protection of oncogene, anti-sense oligodeoxynucleotides against serum nuclease degradation using terminal methylphosphonate groups. 255 58

1. The isolation and characterization of a restriction endonuclease from a thermophilic strain of Bacillus is described. 2. The enzyme recognizes the palindromic sequence 5'...GGCC...3' as determined by PEI-cellulose chromatography of pancreatic DNAse and snake venom phosphodiesterase digestion products of labelled DNA fragments, analysis of restriction digests and direct sequence analysis. 3. The enzyme, denominated BspBR, is an isoschizomer of HaeIII and BspRI.
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PMID:Restriction endonucleases from microorganisms isolated in Brazil: an isoschizomer of HaeIII from a thermophilic Bacillus sp. 263 23

The enzymatic synthesis and characterization of (RP)-2',5'-AMPS trimer and tetramer (SP)-5'-O-(1-thiotriphosphates) from chirally substituted (SP)-[alpha-35S]ATP alpha S by 2',5'-oligoadenylate synthetase from interferon-treated L cell extracts are described. The (RP)-ATP alpha S isomer is not a substrate for the synthetase. The identification of the trimer and tetramer analogues (molar ratio 70:30) was accomplished by high-performance liquid chromatography and subsequent separation by charge using DEAE-cellulose thin-layer chromatography. The digestion of the analogue by snake venom phosphodiesterase I (SVPD) to [alpha-35S]ATP alpha S and [35S]AMPS but not by T2 RNase demonstrated the presence of the 2',5' linkage. The assignment of RP configuration of the 2',5'-phosphorothiodiester linkage was based on the highly specific stereoselectivity of SVPD for RP diastereomers [Burgers, P. M. J., & Eckstein, F. (1978) Proc. Natl. Acad. Sci. U.S.A. 75, 4978-4800; Bryant, F. R., & Benkovic, S. J. (1979) Biochemistry 18, 2825-2828; Nelson, P. S., Bach, C. T., & Verheyden, J. P. H. (1984) J. Org. Chem. 49, 2314-2317]. This suggests that the synthesis of the phosphorothioate analogues proceeded via inversion of configuration at the chiral phosphorus of (SP)-ATP alpha S. The putative (RP)-2',5'-AMPS tetramer (SP)-5'-O-(1-thiotriphosphate) displaced the 2',5'-p3A4[32P]pCp analogue from 2',5'-oligoadenylate-dependent endonuclease 5 times more efficiently than did equimolar concentrations of authentic 2',5'-adenylate tetramer triphosphate. Furthermore, in studies using the calcium phosphate coprecipitation technique, the 2',5'-phosphorothioate trimer and tetramer analogues inhibited protein synthesis better than did 2',5'-adenylate trimer and tetramer triphosphates.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:2',5'-Oligoadenylates chiral at phosphorus: enzymatic synthesis, properties, and biological activities of 2',5'-phosphorothioate trimer and tetramer analogues synthesized from (SP)-ATP alpha S. 399 75

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