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)

In this paper we describe a two-plasmid system which allows over-production of the R.EcoR124I restriction endonuclease. The endonuclease has been purified to homogeneity in milligram amounts and has been shown to be fully active for both restriction and modification. Unexpectedly, the enzyme was found to require only ATP and Mg2+ for ATPase activity and DNA cleavage; S-adenosyl methionine (SAM), which has been described as a cofactor of type I restriction enzymes, is not required by R.EcoR124I. However, SAM was found to stimulate the rate of ATPase activity and DNA cleavage. This may occur through an increase in specific DNA binding by R.EcoR124I in the presence of SAM, as indicated by our surface plasmon resonance experiments. These functional differences from the well described R.EcoKI restriction endonuclease are reflected in a possible structural difference between the two enzymes, namely that the stoichiometry of R.EcoR124I appears to be R1M2S1 while that of R.EcoKI is R2M2S1. Supercoiled DNA with one or two SR124I recognition sites is cleaved by the same mechanism inferring co-operation between specifically bound and excess enzymes. Nicked-circle DNA is an intermediate of cleavage reaction. Cleavage of DNA was inhibited by an increased degree of negative supercoiling, which may reflect an increased difficulty for the enzyme to translocate the DNA. Hemi-methylated DNA was the preferred substrate for methylation.
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PMID:The type I restriction endonuclease R.EcoR124I: over-production and biochemical properties. 863 80

The contribution of nonspecific DNA to enzyme efficiency (k(cat)/K(m)) is described for a sequence-specific DNA-modifying enzyme. Our investigation focuses on the EcoRI DNA methyltransferase which transfers a methyl group from the cofactor S-adenosylmethionine to the second adenine in the double-stranded DNA sequence GAATTC. k(cat)/K(m) increases 4-fold as DNA length increases from 14 to 429 base pairs and increases 2-fold as the distance from the site to the nearest end is increased from 29 to 378 base pairs. No changes in k(cat)/K(m) result from further increases in either case. A facilitated diffusion mechanism is proposed in which the methyltransferase scans an average of <400 base pairs prior to dissociation from a DNA molecule. The methyltransferase was found to methylate two sites on a single DNA molecule in a distributive rather than a processive manner, suggesting that the enzyme dissociates from the DNA prior to release of the reaction product S-adenosylhomocysteine. A direct competition experiment with the EcoRI endonuclease shows the methyltransferase to be slightly more efficient at specific site location and catalysis. A rationale for the role of facilitated diffusion in this type II restriction-modification system is proposed.
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PMID:Contribution of facilitated diffusion and processive catalysis to enzyme efficiency: implications for the EcoRI restriction-modification system. 865 61

BcgI and BcgI-like restriction endonucleases have a very distinct characteristic which causes them to differ from the other classified restriction enzymes; they all cleave double-stranded DNA specifically on both sides of the recognition sequence to excise a short DNA fragment including the recognition sites. Here we report a new BcgI-like restriction endonuclease, BaeI, isolated from Bacillus sphaericus. Like BcgI, BaeI also cleaves double-stranded DNA on both strands upstream and downstream of its recognition sequence (10/15)ACNNNNGTAYC(12/7). There are two dominant polypeptides in the final preparation of BaeI with molecular masses of approximately 80 and 55 kDa. Both are slightly larger than the two BcgI subunits. BaeI requires both Mg2+ and AdoMet to cleave DNA. Accompanying bilateral cleavage activity, the heteromeric BaeI also has an N6-adenine methyltransferase activity which modifies the symmetrically located adenines within its recognition sequence.
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PMID:BaeI, another unusual BcgI-like restriction endonuclease. 883 87

4'-Thio-2'-deoxycytidine was synthesized as a 5'- protected phosphoramidite compatible with solid phase DNA synthesis. When incorporated as the target cytosine (C*) in the GC*GC recognition sequence for the DNA methyltransferase M. HhaI, methyl transfer was strongly inhibited. In contrast, these same oligonucleotides were normal substrates for the cognate restriction endonuclease R. HhaI and its isoschizomer R. Hin P1I. M. HhaI was able to bind both 4'-thio-modified DNA and unmodified DNA to equivalent extents under equilibrium conditions. However, the presence of 4'-thio-2'-deoxycytidine decreased the half-life of the complex by >10-fold. The crystal structure of a ternary complex of M. HhaI, AdoMet and DNA containing 4'-thio-2'-deoxycytidine was solved at 2.05 A resolution with a crystallographic R-factor of 0.186 and R-free of 0.231. The structure is not grossly different from previously solved ternary complexes containing M. HhaI, DNA and AdoHcy. The difference electron density suggests partial methylation at C5 of the flipped target 4'-thio-2'-deoxycytidine. The inhibitory effect of the 4'sulfur atom on enzymatic activity may be traced to perturbation of a step in the methylation reaction after DNA binding but prior to methyl transfer. This inhibitory effect can be partially overcome after a considerably long time in the crystal environment where the packing prevents complex dissociation and the target is accurately positioned within the active site.
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PMID:DNA containing 4'-thio-2'-deoxycytidine inhibits methylation by HhaI methyltransferase. 920 24

Bcg I and Bcg I-like restriction endonucleases cleave double stranded DNA specifically on both sides of their asymmetric recognition sequences which are interrupted by several ambiguous base pairs. Their heterosubunit structure, bifunctionality and stimulation by AdoMet make them different from other classified restriction enzymes. Here we report on a new Bcg I-like restriction endonuclease, Bpl I from Bacillus pumilus , which in contrast to all other Bcg I-like enzymes, recognizes a symmetric interrupted sequence, and which, like Bcg I, cleaves double stranded DNA upstream and downstream of its recognition sequence (8/13)GAGN5CTC(13/8). Like Bcg I, Bpl I is a bifunctional enzyme revealing both DNA cleavage and methyltransferase activities. There are two polypeptides in the homogeneous preparation of Bpl I with molecular masses of approximately 74 and 37 kDa. The sizes of the Bpl I subunits are close to those of Bcg I, but the proportion 1:1 in the final preparation is different from that of 2:1 in Bcg I. Low activity observed with Mg2+increases >100-fold in the presence of AdoMet. Even with AdoMet though, specific cleavage is incomplete. S -adenosylhomocysteine (AdoHcy) or sinefungin can replace AdoMet in the cleavage reaction. AdoHcy activated Bpl I yields complete cleavage of DNA.
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PMID:BplI, a new BcgI-like restriction endonuclease, which recognizes a symmetric sequence. 935 50

For type I restriction systems, recently determined nucleotide sequences predict conserved amino acids in the subunit that is essential for restriction but not modification (HsdR). The conserved sequences emphasize motifs characteristic of the DEAD-box family of proteins which comprises putative helicases, and they identify a new candidate for motif IV. We provide evidence based on an analysis of Eco KI which supports both the relevance of DEAD-box motifs to the mechanism of restriction and the new definition of motif IV. Amino acid substitutions within the newly identified motif IV and those in six other previously identified DEAD-box motifs, but not in the original motif IV, confer restriction-deficient phenotypes. We have examined the relevance of the DEAD-box motifs to the restriction pathway by determining the steps permitted in vitro by the defective enzymes resulting from amino acid substitutions in each of the seven motifs. Eco KI purified from the seven restriction-deficient mutants binds to an unmethylated target sequence and, in the presence of AdoMet, responds to ATP by undergoing the conformational change essential for the pathway of events leading to DNA cleavage. The seven enzymes have little or no ATPase activity and no endonuclease activity, but they retain the ability to nick unmodified DNA, though at reduced rates. Nicking of a DNA strand could therefore be an essential early step in the restriction pathway, facilitating the ATP-dependent translocation of DNA, particularly if this involves DNA helicase activity.
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PMID:EcoKI with an amino acid substitution in any one of seven DEAD-box motifs has impaired ATPase and endonuclease activities. 977 41

An assay is described to measure methylation of biotinylated oligonucleotide substrates by DNA methyltransferases using [methyl-3H]-AdoMet. After the methylation reaction the oligonucleotides are immobilized on an avidin-coated microplate. The incorporation of [3H] into the DNA is quenched by addition of unlabeled AdoMet to the binding buffer. Unreacted AdoMet and enzyme are removed by washing. To release the radioactivity incorporated into the DNA, the wells are incubated with a non-specific endonuclease and the radioactivity determined by liquid scintillation counting. As an example, we have studied methylation of DNA by the EcoRV DNA methyltransferase. The reaction progress curves measured with this assay are linear with respect to time. Methylation rates linearly increase with enzyme concentration. The rates are comparable to results obtained with the same enzyme using a different assay. The biotin-avidin assay is inexpensive, convenient, quantitative, fast and well suited to process many samples in parallel. The accuracy of the assay is high, allowing to reproduce results within +/- 10%. The assay is very sensitive as demonstrated by the detection of incorporation of 0.8 fmol methyl groups into the DNA. Under the experimental conditions, this corresponds to methylation of only 0.03% of all target sites of the substrate. Using this assay, the DNA methylation activity of some M.EcoRV variants could be detected that was not visible by other in vitro methylation assays.
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PMID:Biotin-avidin microplate assay for the quantitative analysis of enzymatic methylation of DNA by DNA methyltransferases. 1078 99

Leishmania and Trypanosoma are two genera of the protozoal Order Kinetoplastida that cause widespread diseases of humans and their livestock. The production of reactive oxygen and nitrogen intermediates by the host plays an important role in the control of infections by these organisms. Signal transduction and its redox regulation have not been studied in any depth in trypanosomatids, but homologs of the redox-sensitive signal transduction machinery of other eukaryotes have been recognized. These include homologs of activator protein-1, human apurinic endonuclease 1 (Ref-1) endonuclease, iron-responsive protein, protein kinases, and phosphatases. The detoxification of peroxide is catalyzed by a trypanothione-dependent system that has no counterpart in mammals, and thus ranks as one of the biochemical peculiarities of trypanosomatids. There is substantial evidence that trypanothione is essential for the survival of Trypanosoma brucei and for the virulence of Leishmania spp. Apart from trypanothione and its precursors, trypanosomatids also possess significant amounts of N(1)-methyl-4-mercaptohistidine or ovothiol A, but its function in the trypanosomatids is not presently understood. The biosynthesis of ovothiol A in Crithidia fasciculata proceeds by addition of sulfur from cysteine to histidine to form 4-mercaptohistidine. S-(4'-L-Histidyl)-L-cysteine sulfoxide is the transsulfuration intermediate. 4-Mercaptohistidine is subsequently methylated with S-adenosylmethionine as the likely methyl donor.
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PMID:Trypanosomal antioxidants and emerging aspects of redox regulation in the trypanosomatids. 1197 Aug 48

The plasmid pJW566 was isolated from L. lactis subsp. cremoris W56, one strain for Danish chadder mixed starter cultures. The strain containing plasmid pJW566 showed resistance against three common phages species 936, c2 and P335 worldwide. It was found that pJW566 encoded for an restriction and modification system, and showed strong resistance to phage CHCP412 when it was introduced into the industrial strain L. lactis CHCC2281 in milk medium. The endonuclease activity analysis indicated that the endonuclease required Mg2+, ATP, and was stimulated by AdoMet.
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PMID:[The characterization of pJW566 from L. Lactis subsp. cremoris W56]. 1255

The Escherichia coli protein regulator of RNase E activity A (RraA) has recently been shown to act as a trans-acting modulator of RNA turnover in bacteria; it binds to the essential endonuclease RNase E and inhibits RNA processing in vivo and in vitro. Here, we report the 2.0A X-ray structure of RraA. The structure reveals a ring-like trimer with a central cavity of approximately 12A in diameter. Based on earlier sequence analysis, RraA had been identified as a putative S-adenosylmethionine:2-demethylmenaquinone and was annotated as MenG. However, an analysis of the RraA structure shows that the protein lacks the structural motifs usually required for methylases. Comparison of the observed fold with that of other proteins (and domains) suggests that the RraA fold is an ancient platform that has been adapted for a wide range of functions. An analysis of the amino acid sequence shows that the E.coli RraA exhibits an ancient relationship to a family of aldolases.
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PMID:The X-ray structure of Escherichia coli RraA (MenG), A protein inhibitor of RNA processing. 1449 5

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