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Query: EC:2.1.1.113 (restriction-modification system)
350 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The XcyI restriction-modification system from Xanthomonas cyanopsidis recognizes the sequence, CCCGGG. The XcyI endonuclease and methylase genes have been cloned and sequenced and were found to be aligned in a head to tail orientation with the methylase preceding and overlapping the endonuclease by one base pair. The nucleotide sequence codes for an N4 cytosine methyltransferase with a predicted molecular weight of 33,500 and an endonuclease comprised of 333 codons and a molecular weight of 36,600. Sequence comparisons revealed significant similarity between the XcyI, CfrI and SmaI methylisomers. In contrast, no similarity was detected between the primary structures of the XcyI and SmaI endonucleases. The XcyI restriction-modification system is highly homologous to the XmaI genes, although the DNA sequences flanking the genes rapidly diverge. The sequence of the XcyI endonuclease contains two motifs which have recently been identified as essential to the activity of the EcoRV endonuclease.
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PMID:Structure and evolution of the XcyI restriction-modification system. 147 87

A restriction-modification system, designated MthTI, was localized on plasmid pFV1 from the thermophilic archaeon Methanobacterium thermoformicicum THF. The MthTI system is a new member of the family of GGCC-recognizing restriction-modification systems. Functional expression of the archaeal MthTI genes was obtained in Escherichia coli. The mthTIR and mthTIM genes are 843 and 990 bp in size and code for proteins of 281 (32,102 Da) and 330 (37,360 Da) amino acids, respectively. The deduced amino acid sequence of M.MthTI showed high similarity with that of the isospecific methyltransferases M.NgoPII and M.HaeIII. In addition, extensive sequence similarity on the amino acid level was observed for the endonucleases R.MthTI and R.NgoPII. Moreover, the endonuclease and methyltransferase genes of the thermophilic MthTI system and those of the Neisseria gonorrhoeae NgoPII system show identical organizations and high (54.5%) nucleotide identity. This finding suggests horizontal transfer of restriction-modification systems between members of the domains Bacteria and Archaea.
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PMID:Characterization of the archaeal, plasmid-encoded type II restriction-modification system MthTI from Methanobacterium thermoformicicum THF: homology to the bacterial NgoPII system from Neisseria gonorrhoeae. 151 4

The genes from Haemophilus parainfluenzae encoding the HpaI restriction-modification system were cloned and expressed in Escherichia coli. From the DNA sequence, we predicted the HpaI endonuclease (R.HpaI) to have 254 amino acid residues (Mr 29,630) and the HpaI methyltransferase (M.HpaI) to have 314 amino acid residues (37,390). The R.HpaI and M.HpaI genes overlapped by 16 base pairs on the chromosomal DNA. The genes had the same orientation. The clone, named E. coli HB101-HPA2, overproduced R.HpaI. R.HpaI activity from the clone was 100-fold that from H. parainfluenzae. The amino acid sequence of M.HpaI was compared with those of other type II methyltransferases.
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PMID:Cloning and expression of the HpaI restriction-modification genes. 154 67

The nucleotide sequence of the genes encoding methyltransferase TaqI (M.TaqI) and restriction endonuclease TaqI (R.TaqI) with the recognition sequence, TCGA, were analyzed in clones isolated from independent libraries. The genes, originally reported as 363 and 236 codons long [Slatko et al., Nucleic Acids Res. 15 (1987) 9781-9796] were redetermined as 421 and 263 codons long, respectively. The C terminus of the taqIM gene overlaps the N terminus of the taqIR gene by 13 codons, as observed with the isoschizomeric TthHB8I restriction-modification system [Barany et al., Gene 112 (1992) 13-20]. Removal of the overlapping codons did not interfere with in vivo M.TaqI activity. We postulate the overlap plays a role in regulating taqIR expression.
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PMID:The corrected nucleotide sequences of the TaqI restriction and modification enzymes reveal a thirteen-codon overlap. 155 2

The MspI restriction-modification system, which recognizes the sequence 5'-CCGG-3', has been previously cloned and sequenced (1). We subcloned the methyltransferase gene (M.MspI) downstream of the ptac promoter in the multicopy vector pUC119 and overexpressed it in E. coli. Upon induction with IPTG, M.MspI constitutes more than 10% of cellular protein. A scheme has been devised to purify large amounts of biologically active M.MspI to apparent homogeneity from these overexpressing E. coli cells. Approximately 0.8 mg of pure M.MspI per gram of cells (wet weight) can be obtained. The apparent molecular weight of M.MspI is 49 kD, by SDS gel electrophoresis and 48-54 kD by gel filtration. At low concentrations (less than 0.4 mg/ml), the methyltransferase is a monomer in solution but at higher concentrations (greater than 3.0 mg/ml) it exists predominantly as a dimer. Polyclonal antibodies raised against M.MspI cross-react with the DNA-methyltransferases of several other restriction-modification systems.
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PMID:Purification and characterization of the MspI DNA methyltransferase cloned and overexpressed in E. coli. 157 50

Fibrobacter succinogenes is an important cellulolytic bacterium found in the rumen and cecum of herbivores. Numerous attempts to introduce foreign DNA into F. succinogenes S85 have failed, suggesting the presence of genetic barriers in this organism. Results from this study clearly demonstrate that F. succinogenes S85 possesses a type II restriction endonuclease, FsuI, which recognizes the sequence 5'-GG(A/T)CC-3'. Analysis of the restriction products on sequencing gels showed that FsuI cleaves between the two deoxyguanosine residues, yielding a 3-base 5' protruding end. These data demonstrate that FsuI is an isoschizomer of AvaII. A methyltransferase activity has been identified in the cell extract of F. succinogenes S85. This activity modified DNA in vitro and protected the DNA from the restriction by FsuI and AvaII. DNA modified in vivo by a cloned methylase gene, which codes for M.Eco47II, also protected the DNA from restriction by FsuI, suggesting that FsuI is inhibited by methylation at one or both deoxycytosine residues of the recognition sequence. The methyltransferase activity in F. succinogenes S85 is likely modifying the same deoxycytosine residues, but the exact site(s) is unknown. A highly active DNase (DNase A) was also isolated from the cell extract of this organism. DNase A is an endonuclease which showed high activity on all forms of DNA (single stranded, double-stranded, linear, and circular) but no activity on RNA. In vitro, the DNase A hydrolyzed F. succinogenes S85 DNA extensively, indicating the lack of protection against hydrolysis by this enzyme. In the presence of Mg2+, DNA was hydrolyzed to fragments of 8 to 10 nucleotides in length. The presence of DNase A and the type II restriction-modification system of F. succinogenes S85 may be the barriers preventing the introduction of foreign DNA into this bacterium.
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PMID:Type II DNA restriction-modification system and an endonuclease from the ruminal bacterium Fibrobacter succinogenes S85. 164 54

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

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


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