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 strong bias against GATC sites was observed in the genome of phage F4, a lytic Streptococcus bovis bacteriophage. Only three GATC sites were found within the 60.4-kbp genome of this phage. The comparative lack of GATC sequences within the F4 genome was probably not due to dam methylation, as no modification within this site was detected using methylation-sensitive isoschizomer pair restriction endonuclease analysis. The short oligonucleotide composition of available S. bovis DNA sequences suggested the existence of an unknown mechanism for counterselection of GATC sites in S. bovis bacteriophages.
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PMID:Lack of GATC sites in the genome of Streptococcus bovis bacteriophage F4. 1087 85

Different strains of Streptococcus suis serotypes 1 and 2 isolated from pigs either contained a restriction-modification (R-M) system or lacked it. The R-M system was an isoschizomer of Streptococcus pneumoniae DpnII, which recognizes nucleotide sequence 5'-GATC-3'. The nucleotide sequencing of the genes encoding the R-M system in S. suis DAT1, designated SsuDAT1I, showed that the SsuDAT1I gene region contained two methyltransferase genes, designated ssuMA and ssuMB, as does the DpnII system. The deduced amino acid sequences of M. SsuMA and M.SsuMB showed 70 and 90% identity to M.DpnII and M.DpnA, respectively. However, the SsuDAT1I system contained two isoschizomeric restriction endonuclease genes, designated ssuRA and ssuRB. The deduced amino acid sequence of R.SsuRA was 49% identical to that of R.DpnII, and R.SsuRB was 72% identical to R.LlaDCHI of Lactococcus lactis subsp. cremoris DCH-4. The four SsuDAT1I genes overlapped and were bounded by purine biosynthetic gene clusters in the following gene order: purF-purM-purN-purH-ssuMA-ssuMB-ssuRA++ +-ssuRB-purD-purE. The G+C content of the SsuDAT1I gene region (34.1%) was lower than that of the pur region (48.9%), suggesting horizontal transfer of the SsuDAT1I system. No transposable element or long-repeat sequence was found in the flanking regions. The SsuDAT1I genes were functional by themselves, as they were individually expressed in Escherichia coli. Comparison of the sequences between strains with and without the R-M system showed that only the region from 53 bp upstream of ssuMA to 5 bp downstream of ssuRB was inserted in the intergenic sequence between purH and purD and that the insertion target site was not the recognition site of SsuDAT1I. No notable substitutions or insertions could be found, and the structures were conserved among all the strains. These results suggest that the SsuDAT1I system could have been integrated into the S. suis chromosome by an illegitimate recombination mechanism.
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PMID:Evidence for horizontal transfer of SsuDAT1I restriction-modification genes to the Streptococcus suis genome. 1113 43

Properties of a mutant bacteriophage T2 DNA [N:(6)-adenine] methyltransferase (T2 Dam MTase) have been investigated for its potential utilization in RecA-assisted restriction endonuclease (RARE) cleavage. Steady-state kinetic analyses with oligonucleotide duplexes revealed that, compared to wild-type T4 Dam, both wild-type T2 Dam and mutant T2 Dam P126S had a 1.5-fold higher k(cat) in methylating canonical GATC sites. Additionally, T2 Dam P126S showed increased efficiencies in methylation of non-canonical GAY sites relative to the wild-type enzymes. In agreement with these steady-state kinetic data, when bacteriophage lambda DNA was used as a substrate, maximal protection from restriction nuclease cleavage in vitro was achieved on the sequences GATC, GATN and GACY, while protection of GACR sequences was less efficient. Collectively, our data suggest that T2 Dam P126S can modify 28 recognition sequences. The feasibility of using the mutant enzyme in RARE cleavage with BCL:I and ECO:RV endonucleases has been shown on phage lambda DNA and with BCL:I and DPN:II endonucleases on yeast chromosomal DNA embedded in agarose.
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PMID:Methylation by a mutant T2 DNA [N(6)-adenine] methyltransferase expands the usage of RecA-assisted endonuclease (RARE) cleavage. 1126 50

A novel type II restriction and modification (R-M) system, Sth368I, which confers resistance to phiST84, was found in Streptococcus thermophilus CNRZ368 but not in the very closely related strain A054. Partial sequencing of the integrative conjugative element ICESt1, carried by S. thermophilus CNRZ368 but not by A054, revealed a divergent cluster of two genes, sth368IR and sth368IM. The protein sequence encoded by sth368IR is related to the type II endonucleases R.LlaKR2I and R.Sau3AI, which recognize and cleave the sequence 5'-GATC-3'. The protein sequence encoded by sth368IM is very similar to numerous type II 5-methylcytosine methyltransferases, including M.LlaKR2I and M.Sau3AI. Cell extracts of CNRZ368 but not A054 were found to cleave at the GATC site. Furthermore, the C residue of the sequence 5'-GATC-3' was found to be methylated in CNRZ368 but not in A054. Cloning and integration of a copy of sth368IR and sth368IM in the A054 chromosome confers on this strain phenotypes similar to those of CNRZ368, i.e., phage resistance, endonuclease activity of cell extracts, and methylation of the sequence 5'-GATC-3'. Disruption of sth368IR removes resistance and restriction activity. We conclude that ICESt1 encodes an R-M system, Sth368I, which recognizes the sequence 5'-GATC-3' and is related to the Sau3AI and LlaKR2I restriction systems.
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PMID:Characterization of a novel type II restriction-modification system, Sth368I, encoded by the integrative element ICESt1 of Streptococcus thermophilus CNRZ368. 1128

Phase variation through slippage-like mechanisms involving homopolymeric tracts depends in part on the absence of Dam-methylase in several pathogenic isolates of Neisseria meningitidis. In Dam-defective strains drg (dam-replacing gene), flanked by pseudo-transposable small repeated elements (SREs), replaced dam. We demonstrate that drg encodes a restriction endonuclease (NmeBII) that cleaves 5'-GmeATC-3'. drg is also present in 50% of Neisseria lactamica strains, but in most of them it is inactive because of the absence of an SRE-providing promoter. This is associated with the presence of GATmeC, suggesting an alternative restriction-modification system (RM) specific for 5'-GATC-3', similar to Sau3AI-RM of Staphylococcus aureus 3A, Lactococcus lactis KR2 and Listeria monocytogenes.
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PMID:Evolution and function of the neisserial dam-replacing gene. 1133 87

Clostridium thermocellum cell extracts exhibit specific endonuclease activity with very little non-specific exonuclease activity at 55 degrees C. The Dam methylation system of Escherichia coli offers complete protection from digestion by C. thermocellum ATCC 27405 cell extracts for all DNA tested (totaling > 100 kb, insuring that most potential restriction sequences have been exposed). Based on both the Dam recognition sequence and the similarity of cell extract and MboI DNA digests, the C. thermocellum restriction enzyme recognition sequence appears to be 5' GATC 3'. Cell extracts made from a second thermophile, C. thermosaccharolyticum ATCC 31960 do not exhibit specific endonuclease activity under the conditions tested. Genomic DNA from C. thermocellum exhibits a Dam+ phenotype while genomic DNA from C. thermosaccharolyticum exhibits a Dam- phenotype.
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PMID:Restriction endonuclease activity in Clostridium thermocellum and Clostridium thermosaccharolyticum. 1153 42

The MutH protein, which is part of the Dam-directed mismatch repair system of Escherichia coli, introduces nicks in the unmethylated strand of a hemi-methylated DNA duplex. The latent endonuclease activity of MutH is activated by interaction with MutL, another member of the repair system. The crystal structure of MutH suggested that the active site residues include Asp70, Glu77 and Lys79, which are located at the bottom of a cleft where DNA binding probably occurs. We mutated these residues to alanines and found that the mutant proteins were unable to complement a chromosomal mutH deletion. The purified mutant proteins were able to bind to DNA with a hemi-methylated GATC sequence but had no detectable endonuclease activity with or without MutL. Although the data are consistent with the prediction of a catalytic role for Asp70, Glu77 and Lys79, it cannot be excluded that they are also involved in binding to MutL.
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PMID:The function of Asp70, Glu77 and Lys79 in the Escherichia coli MutH protein. 1180 96

Sau3AI is a type II endonuclease that cleaves GATC sequences, producing sticky ends with 4-nucleotide 5'-overhangs. Its activity is inhibited by cytosine C5-methylation within the target sequence. In the N-terminus, Sau3AI exhibits sequence similarity to the GATC-specific single-strand nicking endonuclease MutH implicated in mismatch repair (Ban and Yang, 1998). Sequence analysis of Sau3AI and its homologs reveals that Sau3AI possesses an additional MutH-like domain in the C-terminus. Structure prediction suggests that the C-terminal domain lacks the endonuclease active site but retains all putative DNA-binding elements. As an illustration of these findings, a model of quaternary structure of Sau3AI complexed with the target DNA is presented. These predictions have implications for evolution, structure and function of bacterial DNA repair enzymes and restriction endonucleases.
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PMID:A model of structure and action of Sau3AI restriction endonuclease that comprises two MutH-like endonuclease domains within a single polypeptide. 1193 Sep 90

The molecular mechanism of how the dam-methylation status of the DNA is recognized during DNA mismatch repair by the strand discrimination endonuclease MutH is not known. A comparison of the crystal structure of MutH with those of co-crystal structures of several restriction endonucleases, together with a multiple sequence alignment of MutH and related proteins suggested that Phe94, Arg184 and Tyr212 could be involved in discrimination between a methylated or unmethylated adenine in the d(GATC) sequence. A mutational analysis revealed that the variants R184A and Y212S, but not F94A, were substantially reduced in their ability to complement a mismatch repair deficiency in a mutH(-) Escherichia coli strain. In vitro, R184A displayed a strongly reduced endonuclease activity, whereas the Y212S variant has almost completely lost its preference for cleaving the unmethylated strand at hemimethylated d(GATC) sites. Furthermore, the Y212 variant can cleave fully methlyated d(GATC) sites at a comparable rate to unmethylated d(GATC) sites. This demonstrates that Tyr212 is an important, if not the only amino acid residue in MutH for sensing the methylation status of the DNA.
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PMID:Tyr212: a key residue involved in strand discrimination by the DNA mismatch repair endonuclease MutH. 1248 96

The roles of ATP binding and hydrolysis by MutS in mismatch repair are poorly understood. MutS E694A, in which Glu-694 of the Walker B motif is substituted with alanine, is defective in hydrolysis of bound ATP and has been reported to support MutL-dependent activation of the MutH d(GATC) endonuclease in a trans DNA activation assay (Junop, M. S., Obmolova, G., Rausch, K., Hsieh, P., and Yang, W. (2001) Mol. Cell 7, 1-12). Because the MutH trans activation assay used in these previous studies was characterized by high background and low efficiency, we have re-evaluated the activities of MutS E694A. In contrast to native MutS, which can be isolated in a nucleotide-free form, purified MutS E694A contains 1.0 mol of bound ATP per dimer equivalent, and substoichiometric levels of bound ADP (0.08-0.58 mol/dimer), consistent with the suggestion that the ADP.MutS.ATP complex comprises a significant fraction of the protein in solution (Bjornson, K. P. and Modrich, P. (2003) J. Biol. Chem. 278, 18557-18562). In the presence of Mg2+, endogenous ATP is hydrolyzed with a rate constant of 0.12 min-1 at 30 degrees C, and hydrolysis yields a protein that displays increased specificity for heteroduplex DNA. As observed with wild type MutS, ATP can promote release of MutS E694A from a mismatch. However, the mutant protein is defective in the methyl-directed, mismatch- and MutL-dependent cis activation of MutH endonuclease on a 6.4-kilobase pair heteroduplex, displaying only 1 to 2% of the activity of wild type MutS. The mutant protein also fails to support normal assembly of the MutS.MutL.DNA ternary complex. Although a putative ternary complex can be observed in the presence of MutS E694A, assembly of this structure displays little if any dependence on a mismatched base pair.
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PMID:Hydrolytically deficient MutS E694A is defective in the MutL-dependent activation of MutH and in the mismatch-dependent assembly of the MutS.MutL.heteroduplex complex. 1450 24

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