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)

The EcoRV restriction endonuclease normally shows a high specificity for its recognition site on DNA, GATATC. In standard reactions, it cleaves DNA at this site several orders of magnitude more readily than at any alternative sequence. But in the presence of dimethyl sulphoxide and at high pH, the EcoRV enzyme cleaves DNA at several sites that differ from its recognition site by one nucleotide. Of the 18 (3 X 6) possible sequences that differ from GATATC by one base, all were cleaved readily except for the following 4 sites: TATATC, CATATC, GATATA and GATATG. However, two of the sites that could be cleaved by EcoRV in the presence of dimethyl sulphoxide, GAGATC and GATCTC, were only cleaved on DNA that lacked dam methylation: both contain the sequence GATC, the recognition site for the dam methylase of Escherichia coli.
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PMID:Relaxed specificity of the EcoRV restriction endonuclease. 301 95

A method for the isolation of DNA from mycobacteria propagated in vitro is described that utilizes organic solvents to extract lipoidal components from the outer membrane, and digestion with a protease (nagarse) and lysozyme to penetrate the cell wall. The mycobacterial cells were lysed by the addition of detergent and the DNA was purified by digestion with pronase, sequential phenol and chloroform extractions, and digestion with RNAase A. The isolated DNA, which was obtained in good yields, was of a relatively high Mr and could be readily digested by restriction endonucleases. By this method, the genomes of Mycobacterium avium, M. intracellulare, M. lepraemurium, 'M. lufu', M. marinum, M. phlei, M. scrofulaceum, M. smegmatis and M. tuberculosis were isolated and the restriction endonuclease digestion patterns analysed. Each species could be distinguished by the digestion patterns, indicating that this approach can be used for identifying mycobacterial species. This approach is also sufficiently sensitive to differentiate strains since we were able to distinguish two independently isolated strains of M. tuberculosis, H37 and H4. In addition, no evidence was obtained for the presence of methylcytosine residues in the sequences 5'.CCGG.3',5'.CCCGGG.3',5'.CC(A/T) GG.3' or for methyladenine at 5'.GATC.3' in the DNA of the nine mycobacterial species examined using pairs of restriction enzymes that recognize and cleave at the same nucleotide sequence but differ in their sensitivity to 5-methylcytosine or 6N-methyladenine.
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PMID:Isolation and restriction endonuclease analysis of mycobacterial DNA. 301 65

An enzyme was isolated from a eucaryotic, Chlorella-like green alga infected with the virus PBCV-1 which exhibits type II restriction endonuclease activity. The enzyme recognized the sequence GATC and cleaved DNA 5' to the G. Methylation of deoxyadenosine in the GATC sequence inhibited enzyme activity. In vitro the enzyme cleaved host Chlorella nuclear DNA but not viral DNA because host DNA contains GATC and PBCV-1 DNA contains GmATC sequences. PBCV-1 DNA is probably methylated in vivo by the PBCV-1-induced methyltransferase described elsewhere (Y. Xia and J. L. Van Etten, Mol. Cell. Biol. 6:1440-1445). Restriction endonuclease activity was first detected 30 to 60 min after viral infection; the appearance of enzyme activity required de novo protein synthesis, and the enzyme is probably virus encoded. Appearance of enzyme activity coincided with the onset of host DNA degradation after PBCV-1 infection. We propose that the PBCV-1-induced restriction endonuclease participates in host DNA degradation and is part of a virus-induced restriction and modification system in PBCV-1-infected Chlorella cells.
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PMID:Restriction endonuclease activity induced by PBCV-1 virus infection of a Chlorella-like green alga. 302 90

Previous comparison of the amino acid sequences of the GATC-methylating Escherichia coli Dam methyltransferase (MTase) with those of other adenine MTases (M.EcoRV, M.DpnII and T4Dam) localized four conserved regions. Regions III and IV have similarities with many other MTases. The sequence DPPY (or NPPY) is always present in region IV. It was suggested to be the AdoMet binding site. Publication of the nucleotide and amino acid sequences of M.CviBIII, M.DpnA and MutH give further credence to this assignment: M.DpnA, which also methylates GATC, has strong similarities with regions III and IV; M.CviBIII, a cytosine methylase, has a characteristic NPPY sequence in region IV, and only limited resemblance in region III; MutH, the GATC-specific endonuclease in DNA mismatch repair, has significant similarities uniquely in region III. The presently available evidence suggests that region III is the GAT(C) binding site and region IV is the AdoMet binding site. This hypothesis is strengthened by recent genetic findings.
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PMID:The DNA and S-adenosylmethionine-binding regions of EcoDam and related methyltransferases. 307 10

A DNA methyltransferase was isolated from a eucaryotic, Chlorella-like green alga infected with the virus PBCV-1. The enzyme recognized the sequence GATC and methylated deoxyadenosine solely in GATC sequences. Host DNA, which contains GATC sequences, but not PBCV-1 DNA, which contains GmATC sequences, was a good substrate for the enzyme in vitro. The DNA methyltransferase activity was first detected about 1 h after viral infection; PBCV-1 DNA synthesis and host DNA degradation also began at about this time. The appearance of the DNA methyltransferase activity required de novo protein synthesis, and the enzyme was probably virus encoded. Methylation of DNAs with the PBCV-1-induced methyltransferase conferred resistance of the DNAs to a PBCV-1-induced restriction endonuclease enzyme described previously (Y. Xia, D. E. Burbank, L. Uher, D. Rabussay, and J. L. Van Etten, Mol. Cell. Biol. 6:1430-1439). We propose that the PBCV-1-induced methyltransferase protects viral DNA from the PBCV-1-induced restriction endonuclease and is part of a virus-induced restriction and modification system in PBCV-1-infected Chlorella cells.
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PMID:DNA methyltransferase induced by PBCV-1 virus infection of a Chlorella-like green alga. 353 3

In vivo and in vitro evidence is presented implicating a function of GATC methylation in the Escherichia coli replication origin, oriC, during initiation of DNA synthesis. Transformation frequencies of oriC plasmids into E. coli dam mutants, deficient in the GATC-specific DNA methylase, are greatly reduced compared with parental dam+ cells, particularly for plasmids that must use oriC for initiation. Mutations that suppress the mismatch repair deficiency of dam mutants do not increase these low transformation frequencies, implicating a new function for the Dam methylase. oriC DNA isolated from dam- cells functions 2- to 4-fold less well in the oriC-specific in vitro initiation system when compared with oriC DNA from dam+ cells. This decreased template activity is restored 2- to 3-fold if the DNA from dam- cells is first methylated with purified Dam methylase. Bacterial origin plasmids or M13-oriC chimeric phage DNA, isolated from either base substitution or insertion dam mutants of E. coli, exhibit some sensitivity to digestion by DpnI, a restriction endonuclease specific for methylated GATC sites, showing that these dam mutants retain some Dam methylation activity. Sites of preferred cleavage are found within the oriC region, as well as in the ColE1-type origin.
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PMID:Importance of state of methylation of oriC GATC sites in initiation of DNA replication in Escherichia coli. 389 29

Modification of gonococcal deoxyribonucleic acid (DNA) was investigated, and the relationship with endonuclease production was explored. Both chromosomal and plasmid DNA from different gonococcal strains, irrespective of their plasmid content, was poorly cleaved by the restriction endonucleases HaeII, HaeIII, SacII, and BamHI. The fragment pattern of the Tn3 segment present on the 7.2-kilobase gonococcal resistance plasmid, when compared to its known DNA sequence, allowed us to conclude that the HaeIII and BamHI resistance was due to modification of these sites. A comparison of the fragment pattern of the resistance plasmid, when isolated from Escherichia coli or Neisseria gonorrhoeae, revealed that the resistance of HaeII must also be due to modification of its recognition sequence. Isoschizomers of HaeII and HaeIII can be found in isolates of N. gonorrhoeae (NgoI and NgoII, respectively). A new restriction endonuclease in gonococci, NgoIII, with a specificity similar to SacII, is reported here. High-pressure liquid chromatography of gonococcal DNA showed the presence of 5-methylcytosine. It is suggested that the methylation of cytosine residues in the HaeII (NgoI), HaeIII (NgoII), and SacII (NgoIII) recognition sites is the basis for the resistance of gonococcal DNA to cleavage by these enzymes. This methylation may be part of a host restriction modification system. In two out of five gonococcal strains the sequence -GATC- was modified. One strain unable to modify this sequence was a spontaneous mutant of a strain carrying such a modifying function.
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PMID:Deoxyribonucleic acid modifications and restriction endonuclease production in Neisseria gonorrhoeae. 625 50

From Caryophanon latum L site specific restriction endonuclease (ClaI) has been purified, which recognises tha DNA hexanucleotide palindrome 5'-A-T-C-G-A-T-3'. Staggered cleavage generates DNA restriction fragments with 5'-terminal pCG extensions. A CLaI map of bacteriophage lambda has been determined, which indicates cleavage inhibition due to adenine methylation at over lapping ClaI-GATC recognition sequences. Plasmid pBR322 is cut only once, in the tetracycline promoter region, and can, therefore, be used as a vector system for cloning fragments derived from ClaI digestions, and in addition for fragments generated by TaqI, HpaII, and several other enzymes.
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PMID:ClaI. a new restriction endonuclease from Caryophanon latum L. 627 88

The genetic basis of the unique restriction endonuclease DpnI, that cleaves only at a methylated sequence, 5'-GmeATC-3', and of the complementary endonuclease DpnII, which cleaves at the same sequence when it is not methylated, was investigated. Different strains of Streptococcus pneumoniae isolated from patients contained either DpnI (two isolates) or DpnII (six isolates). The latter strains also contained DNA methylated at the 5'-GATC-3' sequence. A restrictable bacteriophage, HB-3, was used to characterize the various strains and to select for transformants. One laboratory strain contained neither DpnI nor Dpn II. It was probably derived from a DpnI-containing strain, and its DNA was not methylated at 5'-GATC-3'. Cells of this strain were transformed to the DpnI restriction phenotype by DNA from a DpnI-containing strain and to the DpnII restriction phenotype by DNA from a DpnII-containing strain. Neither cross-transformation, that is, transformation to one phenotype by DNA from a strain of the other phenotype, nor spontaneous conversion was observed. Extracts of transformants to the new restriction phenotype were shown to contain the corresponding endonuclease.
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PMID:Transformation of restriction endonuclease phenotype in Streptococcus pneumoniae. 628 56

The gene coding for the pneumococcal DNA adenine methylase that recognizes the sequence 5'-GATC-3' was cloned in a strain of Streptococcus pneumoniae that lacked both restriction endonucleases DpnI and DpnII. The gene was cloned as a 3.7-kilobase fragment of chromosomal DNA from a DpnII-containing strain inserted in both possible orientations in the multicopy plasmid vector pMP5 to give recombinant plasmids pMP8 and pMP10. Recombinant plasmids were selected by their resistance to DpnII cleavage. Cells carrying the recombinant plasmids modified phage in vivo so that it was restricted by DpnI- but not DpnII-containing hosts. They also showed levels of DNA methylase activity five times higher than that in cells of the original DpnII strain. No DpnII activity was observed in the clones; therefore, it was concluded that the insert did not contain an intact DpnII endonuclease gene and that methylation of host DNA did not turn on a latent form of the gene.
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PMID:Cloning in Streptococcus pneumoniae of the gene for DpnII DNA methylase. 632 45

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