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)

A DNA fragment of about 3.4 kilobase pairs that expressed the HgaI modification activity was cloned from the chromosomal DNA of Haemophilus gallinarum, and its nucleotide sequence was determined. Two open reading frames (ORF) which could code for structurally similar proteins were identified in the upstream and middle regions and a truncated ORF in the downstream region in the same orientation. When the respective ORFs were separately cloned, the clones carrying the upstream and middle ORFs both expressed the modification activity, indicating that the two genes are involved in modification of the HgaI restriction-modification system. In order to determine the sites of modification precisely, the respective genes were recloned into an expression vector, from which gene products were purified. A short DNA fragment carrying the HgaI recognition site was treated with each of these enzymes, and, after separation of the two strands by duplex formation with M13 viral DNAs carrying the respective strands, the presence or absence of modification was judged from susceptibility to HgaI endonuclease. The results of analysis showed that different strands were modified in an asymmetric way by each gene product. Analysis of the species and positions of modified bases by the Maxam-Gilbert method further demonstrated that the gene products from the upstream and middle ORFs participated in methylation of the internal cytosine residues of the strands carrying 3'-CTGCG-5' and 5'-GACGC-3', respectively. We concluded that the HgaI modification system consisted of two cytosine methylase genes responsible for modification of different strands in the target DNA.
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PMID:The HgaI restriction-modification system contains two cytosine methylase genes responsible for modification of different DNA strands. 185 24

Rhodococcus rhodochrous ATCC 4275 (Nocardia corallina) has a restriction-modification system with the same recognition sequence, methylation site and cleavage site as the SalI restriction-modification system. Both the restriction endonuclease and the DNA-methyltransferase (DNA-MTase) have been partially purified and characterized. The nuclease has requirements of activity similar to SalI, and a native Mr of about 46,000. The DNA-MTase is a protein with an Mr of about 67,000. No DNA homology was detected between the cloned salI restriction-modification genes of Streptomyces albus and R. rhodochrous chromosomal DNA.
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PMID:Characterization of Rrh4273I, a restriction-modification system of Rhodococcus rhodochrous ATCC 4273 (Nocardia corallina) which recognizes the same sequence as the Streptomyces albus G SalI restriction-modification system. 191 5

Restriction-modification systems must be regulated to avoid autorestriction and death of the host cell. An open reading frame (ORF) in the PvuII restriction-modification system appears to code for a regulatory protein from a previously unrecognized family. First, interruptions of this ORF result in a nonrestricting phenotype. Second, this ORF can restore restriction competence to such interrupted mutants in trans. Third, the predicted amino acid sequence of this ORF resembles those of known DNA-binding proteins and includes a probable helix-turn-helix motif. A survey of unattributed ORFs in 15 other type II restriction-modification systems revealed three that closely resemble the PvuII ORF. All four members of this putative regulatory gene family have a common position relative to the endonuclease genes, suggesting a common regulatory mechanism.
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PMID:A family of regulatory genes associated with type II restriction-modification systems. 199 88

The two genes encoding the class IIS restriction-modification system MboII from Moraxella bovis were cloned separately in two compatible plasmids and expressed in E. coli RR1 delta M15. The nucleotide sequences of the MboII endonuclease (R.MboII) and methylase (M.MboII) genes were determined and the putative start codon of R.MboII was confirmed by amino acid sequence analysis. The mboIIR gene specifies a protein of 416 amino acids (MW: 48,617) while the mboIIM gene codes for a putative 260-residue polypeptide (MW: 30,077). Both genes are aligned in the same orientation. The coding region of the methylase gene ends 11 bp upstream of the start codon of the restrictase gene. Comparing the amino acid sequence of M.MboII with sequences of other N6-adenine methyltransferases reveals a significant homology to M.RsrI, M.HinfI and M.DpnA. Furthermore, M.MboII shows homology to the N4-cytosine methyltransferase BamHI.
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PMID:Cloning and characterization of the MboII restriction-modification system. 202 May 40

The restriction-modification system HgiDI from Herpetosiphon giganteus strain Hpa2 has been cloned in E. coli in a two-step procedure. Selection of the methyltransferase (M.HgiDI) gene in vitro was performed using the heterologous restriction endonuclease AhaII, an isoschizomer of Acyl and HgiDI (GRCGYC). Cloning of the complete HgiDI endonuclease (R.HgiDI) gene could only be achieved in recipient cells harbouring a recombinant plasmid, which was expressing the corresponding methyltransferase and could thereby prevent the host from self-destruction of its genetic material. The HgiDI restriction-modification system was sequenced and functionally correlated with two open reading frames of 309 (M) and 359 (R) codons. In homology studies M.HgiDI showed significant similarities to 20 other m5C-methyltransferases and turned out to be the most compact enzyme of this group described so far. Initial attempts for overexpression of M.HgiDI and partial purification of R.HgiDI have been successful.
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PMID:Stepwise cloning and molecular characterization of the HgiDI restriction-modification system from Herpetosiphon giganteus Hpa2. 202 May 44

The complete type II restriction-modification system HgiBI of Herpetosiphon giganteus strain Hpg5 recognizing the AvaII specific DNA sequence GGWCC has been cloned and expressed functionally active in Escherichia coli. A considerable acceleration in cloning could be achieved by preparing a size restricted library after application of a related hybridization probe. Both methyltransferase (437 codons) and restriction endonuclease gene (274 codons) were found to be encoded on a 3.6 kilobases ClaI/HincII fragment in the same transcriptional orientation separated by one triplett only. Protein sequence comparisons revealed a close resemblance of M.HgiBI to the group of m5C-methyltransferases, especially to M.BanI from Bacillus aneurinolyticus with the related recognition sequence GGYRCC. In contrast, no significant similarities have been observed for the associated endonuclease R.HgiBI with any other restriction enzyme described so far, even not with the isoschizomeric R.SinI from Salmonella infantis, or with R.BanI.
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PMID:Isolation and genetic structure of the AvaII isoschizomeric restriction-modification system HgiBI from Herpetosiphon giganteus Hpg5: M.HgiBI reveals high homology to M.BanI. 206 38

By chromatography on phosphocellulose and Heparin-Sepharose the modification methylase M.Sau3239I was detected and partly purified from cells of Streptomyces aureofaciens 3239. Methylation by this enzyme protects DNA from cleavage by the restriction endonuclease R.Sau3239I. The enzyme catalyzes methylation of adenine to N-6-methyladenine in the 5'-CTCGmAG-3' recognition sequence.
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PMID:Modification methylase M.Sau3239I from Streptomyces aureofaciens 3239. 212 28

Conditions were determined for the methylation of intact yeast chromosomes by EcoRI, HhaI, and MspI bacterial methylases using an endonuclease protection assay while the chromosomes were embedded in agarose plugs suitable for transverse-field electrophoresis. Parameters were also established for the methylation of human chromosomes by EcoRI methylase. Methylation of embedded chromosomes by EcoRI methylase required prewashes with EDTA. EcoRI, HhaI, and MspI methylases showed optimal activity when nonacetylated bovine serum albumin, high levels of S-adenosylmethionine, and high levels of methylase were used. The use of bacterial methylases for methylation of embedded chromosomes will allow investigators to normalize variations in cellular DNA methylation prior to restriction and create new and rare endonuclease recognition sites which will facilitate the detection of chromosomal alterations and deletions.
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PMID:Methylation of intact chromosomes by bacterial methylases in agarose plugs suitable for pulsed-field electrophoresis. Methylation of intact chromosomes in agarose by methylases. 212 70

The DNA methylase M.Xbal was isolated from an E. coli recombinant clone. We deduce that the enzyme methylates at the sequence 5'-TCTAGm6A-3'. In combination with the methylation-dependent restriction endonuclease, DpnI (5'-Gm6A/TC-3'), DNA cleavage occurs at the sequence 5'-TCTAGA/TCTAGA-3'. This twelve-base-pair site should occur once every 16,000,000 base pairs in a random sequence of DNA. The exceptional rarity of the M.XbaI/DpnI sequence makes it an ideal candidate for transpositional integration of a unique cleavage site into bacterial genomes. Retrotransposition into mammalian genomes is also an attractive possibility.
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PMID:Cleavage at the twelve-base-pair sequence 5'-TCTAGATCTAGA-3' using M.Xbal (TCTAGm6A) methylation and DpnI (Gm6A/TC) cleavage. 215 82

The HpaII restriction-modification system from Haemophilus parainfluenzae recognizes the DNA sequence CCGG. The gene for the HpaII methylase has been cloned into E. coli and its nucleotide sequence has been determined. The DNA of the clones is fully protected against cleavage by the HpaII restriction enzyme in vitro, indicating that the methylase gene is active in E. coli. The clones were isolated in an McrA-strain of E. coli; attempts to isolate them in an McrA+ strain were unsuccessful. The clones do not express detectable HpaII restriction endonuclease activity, suggesting that either the endonuclease gene is not expressed well in E. coli, or that it is not present in its entirety in any of the clones that we have isolated. The derived amino acid sequence of the HpaII methylase shows overall similarity to other cytosine methylases. It bears a particularly close resemblance to the sequences of the HhaI, BsuFI and MspI methylases. When compared with three other methylases that recognize CCGG, the variable region of the HpaII methylase, which is believed to be responsible for sequence specific recognition, shows some similarity to the corresponding regions of the BsuFI and MspI methylases, but is rather dissimilar to that of the SPR methylase.
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PMID:Cloning and characterization of the HpaII methylase gene. 218 89

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