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 capacity of the modification methylase (MHhaI) and restriction endonuclease (HhaI) form Haemophilus haemolyticus to methylate and cleave, respectively, recognition sites which are in right-handed B or left-handed Z structures was determined in vitro. Plasmids containing tracts of (dC-dG) as well as numerous individual d(GCGC) sites distributed around the vector were studied. Negative supercoiling was used to convert the (dC-dG) tracts (approximately 30 bp in length) from a right-handed to a left-handed conformation. (Methyl-3H)-SAM was used to localize and quantitate modified d(GCGC) recognition sites, whereas cleavage by HhaI was used to detect unmethylated sites. In the left-handed Z-form, the (dC-dG) blocks were not methylated by MHhaI and not cleaved by HhaI. A two-dimensional gel analysis of a family of 33 topoisomers treated with MHhaI revealed that the lack of methylation in the (dC-dG) blocks was directly correlated to the supercoil-induced B to Z transition in these segments. These results are significant with respect to enzyme-DNA interactions in general and provide the basis for using HhaI and MHhaI as probes for different DNA structures and conformational transitions under physiological conditions.
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PMID:HhaI methylase and restriction endonuclease as probes for B to Z DNA conformational changes in d(GCGC) sequences. 609 48

The efficiency of endonucleolytic scission by restriction endonuclease HinfIII varies markedly for different recognition sites. The relative frequencies of cleavage at these sites have been determined on the basis of analysis of specific unit length linear molecules formed. The efficiency of restriction reaction depends also on the number of recognition sites in the DNA substrate. Cleavage by HinfIII in the absence or presence of S-adenosylmethionine is observed only when at least three recognition sites are present. HinfIII also shows preferential methylation of certain sites observable even for a substrate with one recognition site. The nucleotide sequences at sites cleaved or methylated at high frequency have been compared.
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PMID:Preferential cleavage by restriction endonuclease HinfIII. 609 47

The restriction endonuclease from Escherichia coli K is a multifunctional protein which efficiently methylates heteroduplex DNA (one strand modified and one strand unmodified) in the presence of S-adenosylmethionine (AdoMet), ATP, and Mg2+. The methylase activity is catalytic, and seems to modify different heteroduplex host specificity sites for E. coli K with equal efficiency. In the methylase reaction, both AdoMet and ATP (or its imido analog) act as allosteric effectors, but AdoMet also serves as a methyl donor. Preincubation of the enzyme with AdoMet eliminates the lag period observed in DNA methylation. The rate of enzyme activation was determined using the AdoMet analog Sinefungin. The result are consistent with the hypothesis that the early steps of AdoMet binding and enzyme activation are common to both restriction and modification reactions.
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PMID:Characterization of the DNA methylase activity of the restriction enzyme from Escherichia coli K. 626 Jul 81

Coliphage BA14 was isolated from sewage and shown to be related to phages T7 and T3. It is similar to T3 in that it directs the synthesis of an S-adenosyl-methionine-cleaving enzyme (SAMase) early upon infection. However, it differs from all other known T7-related coliphages by the inability of its RNA polymerase (gene 1 product) to transcribe T7 DNA or T3 DNA. BA14, T7 and T3 also show marked differences in autoradiographic patterns of their gel-electrophoretically separated 35S-labelled intracellular phage proteins, restriction endonuclease HpaI cleavage patterns of their DNAs, and serological specificities of their infectious particles. Other distinctive features became apparent upon simultaneous mixed infection with BA14 and T7 or T3: inability of BA14 to produce genetic recombinants with either T7 or T3; lack of functional complementation between amber mutants of BA14 and T7 or T3; mutual exclusion and depression of the burst size of the mixedly infected cells.
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PMID:Coliphage BA14: a new relative of phage T7. 629 54

The EcoA restriction enzyme from Escherichia coli 15T- has been isolated. It proves to be an unusual enzyme, clearly related functionally to the classical type I restriction enzymes. The basic enzyme is a two subunit modification methylase. Another protein species can be purified which by itself has no enzymatic activities but which converts the modification methylase to an ATP and S-adenosylmethionine-dependent restriction endonuclease. The DNA recognition sequence of EcoA has an overall structure that is very similar to previously determined type I sequences. It is: 5'-GAGNNNNNNNGTCA-3' 3'-CTCNNNNNNNCAGT-5' where N can be any nucleotide. Modification methylates the adenosyl residue in the specific trinucleotide and the adenosyl residue in the lower strand of the specific tetranucleotide.
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PMID:The EcoA restriction and modification system of Escherichia coli 15T-: enzyme structure and DNA recognition sequence. 632 76

A DNA methylase was purified in a homogeneous state from a extremely thermophilic bacterium, Thermus thermophilus HB8, by chromatography on, successively, phosphocellulose, CM-cellulose, and heparin-Sepharose. The molecular weight of the enzyme was determined to be about 44,000 by gel filtration on a Sephadex G-100 column and 41,000 by SDS-poly-acrylamide gel electrophoresis, and these findings suggest a single polypeptide enzyme. The enzyme develops maximum activity around pH 7.4 and at 70 degrees C. Enzymatic activity is completely inhibited by 0.2 M NaCl or 2 mM HgCl2. The enzyme transfers methyl groups from S-adenosyl-L-methionine to a double stranded DNA. The sole product of the reaction was identified as N-6-methyl adenine after hydrolysis of the DNA with formic acid. The enzyme kinetics obey the Michaelis-Menten equation and Km values for S-adenosylmethionine and lambda phage DNA were determined to be 0.8 muM and 10 microgram/ml, respectively. The enzyme does not transfer methyl groups to TthHB8I endonuclease digested DNA as well as the host (T. thermophilus HB8) DNA. The number of methyl groups of the fully methylated phiX174 RF DNA was about twice as many as TthHB8I endonuclease sites on the DNA. The distribution of the methyl groups of phiX174 RF DNA among the HaeIII fragments was the same as that of TthHB8I endonuclease sites, suggesting that this DNA methylase is the other component of the modification-restriction system including TthHB8I endonuclease. The enzyme probably recognizes the sequence, 5'-TCGA-3', in a double stranded DNA and probably methylates adenine in the above sequence.
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PMID:A DNA methylase from Thermus thermophilus HB8. 644 53

BamHI methylase has been purified to apparent homogeneity. The isolated form of the enzyme is a single polypeptide with a molecular weight of 56,000 as determined by sodium dodecyl sulfate-polyacrylamide electrophoresis. Unlike BamHI endonuclease, which is isolated as a dimer and higher aggregates, the methylase has no apparent higher form. The methylase requires S-adenosyl-L-methionine as the methyl-group donor and is inhibited by Mg2+. The enzyme is also inhibited by 2,3-butanedione and reagents specific for sulfhydryl groups, such as N-ethylmaleimide, which suggests a role for arginine and cysteine residues, respectively. DNA efficiently protects the enzyme against the butanedione modification while S-adenosylmethionine has no effect. In contrast, S-adenosylmethionine protects against cysteine modification while DNA produces only small amounts of protection. Studies on the mechanism of methylation indicate that both strands of the recognition sequence are modified in a single binding event. The sequence specificity of the methylase is relaxed upon the addition of glycerol in the reaction mixture. In the presence of 30% glycerol the enzyme methylates sequences that are also recognized by BamHI endonuclease when acting under conditions of relaxed specificity.
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PMID:Sequence-specific BamHI methylase. Purification and characterization. 646 68

We have discovered two unusual restriction endonuclease (ENases) in two Campylobacter jejuni strains that recognize asymmetrical, interrupted sequences and cleave the DNA both before and after their recognition sites. Both enzymes require AdoMet as a cofactor for their ENase activity.
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PMID:Two novel restriction endonucleases from Campylobacter jejuni. 760 69

The new site-specific endonuclease BspKT5I free from interfering impurities has been isolated from thermophilic soil bacteria Bacillus species KT5 by successive chromatography on blue agarose, hydroxyapatite and heparin-Sepharose. BspKT5I on double-stranded DNA recognizes the sequence 5'-CTGAAG16N decreases 3'-GACTTC14N increases and cleaves the DNA at the recognition site as indicated by the arrows to form dinucleotide 3'-protruding termini. The isolated endonuclease is an isoschisomer of Eco57I. However, unlike Eco57I, it is not stimulated by S-adenosylmethionine (SAM) and can therefore be related to subclass IIs but not to IV, as Eco57I. In addition, endonuclease BspKT5I, unlike Eco57I, has no methylase activity.
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PMID:[A new site-specific endonuclease BspKT51]. 801 70

We have purified and characterized a new restriction endonuclease, BcgI, which has properties unlike those of the three recognized classes of restriction enzymes. BcgI was isolated from Bacillus coagulans, and it recognizes the sequence CGAN6TGC. BcgI cleaves double stranded DNA on both strands upstream and downstream of the recognition sequence, so that the recognition sequence is released as a 34-base pair fragment with 2-base 3'-extensions. Mg++ and S-adenosylmethionine are required for cleavage. Sinefungin, a structural analogue of AdoMet which generally inhibits methylase activity, can replace AdoMet in the cleavage reaction. The apparent binding constant (Kappd) for AdoMet is about 100 nM, while the KappD for sinefungin is about 500 nM.
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PMID:A unique restriction endonuclease, BcgI, from Bacillus coagulans. 845 Nov 98

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