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 GATC-specific restriction and modification activities were analyzed in 11 major bacterial representatives of ruminal microflora. Modification phenotype was observed in 13 out of 40 ruminal strains. MboI isoschizomeric restriction endonucleases were detected in 10 bacterial strains tested; three strains lacked any detectable corresponding endonuclease activity. The only examined strain of Mitsuokella multi-acida was found to possess a different type of endonuclease activity. This is the first report on restriction activity in ruminal treponemes M. multiacida and Megasphaera elsdenii.
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PMID:GATC-specific restriction--modification systems in ruminal bacteria. 1522 96

Listeria monocytogenes contamination of ready-to-eat foods has been implicated in numerous outbreaks of food-borne listeriosis. However, the health hazards posed by L. monocytogenes detected in foods may vary, and speculations exist that strains actually implicated in illness may constitute only a fraction of those that contaminate foods. In this study, examination of 34 serogroup 4 (putative or confirmed serotype 4b) isolates of L. monocytogenes obtained from various foods and food-processing environments, without known implication in illness, revealed that many of these strains had methylation of cytosines at GATC sites in the genome, rendering their DNA resistant to digestion by the restriction endonuclease Sau3AI. These strains also harbored a gene cassette with putative restriction-modification system genes as well as other, genomically unlinked genetic markers characteristic of the major epidemic-associated lineage of L. monocytogenes (epidemic clone I), implicated in numerous outbreaks in Europe and North America. This may reflect a relatively high fitness of strains with these genetic markers in foods and food-related environments relative to other serotype 4b strains and may partially account for the repeated involvement of such strains in human food-borne listeriosis.
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PMID:Epidemic clone I-specific genetic markers in strains of Listeria monocytogenes serotype 4b from foods. 1524 Feb 96

Photochemical crosslinking is a method for studying the molecular details of protein-nucleic acid interactions. In this study, we describe a novel strategy to localize crosslinked amino acid residues that combines laser-induced photocrosslinking, proteolytic digestion, Fe3+-IMAC (immobilized metal affinity chromatography) purification of peptide-oligodeoxynucleotide heteroconjugates and hydrolysis of oligodeoxynucleotides by hydrogen fluoride (HF), with efficient matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF-MS). The new method is illustrated by the identification of the DNA-binding site of the restriction endonuclease MboI. Photoactivatable 5-iododeoxyuridine was incorporated into a single site within the DNA recognition sequence (GATC) of MboI. Ultraviolet irradiation of the protein-DNA complex with a helium/cadmium laser at 325 nm resulted in 15% crosslinking yield. Proteolytic digestion with different proteases produced various peptide-oligodeoxynucleotide adducts that were purified together with free oligodeoxynucleotide by Fe3+-IMAC. A combination of MS analysis of the peptide-nucleosides obtained after hydrolysis by HF and their fragmentation by MS/MS revealed that Lys209 of MboI was crosslinked to the MboI recognition site at the position of the adenine, demonstrating that the region around Lys209 is involved in specific binding of MboI to its DNA substrate. This method is suitable for the fast identification of the site of contact between proteins and nucleic acids starting from picomole quantities of crosslinked complexes.
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PMID:A novel strategy for the identification of protein-DNA contacts by photocrosslinking and mass spectrometry. 1538 47

How restriction enzymes with their different specificities and mode of cleavage evolved has been a long standing question in evolutionary biology. We have recently shown that several Type II restriction endonucleases, namely SsoII (downward arrow CCNGG), PspGI (downward arrow CCWGG), Eco-RII (downward arrow CCWGG), NgoMIV (G downward arrow CCGGC), and Cfr10I (R downward arrow CCGGY), which recognize similar DNA sequences (as indicated, where the downward arrows denote cleavage position), share limited sequence similarity over an interrupted stretch of approximately 70 amino acid residues with MboI, a Type II restriction endonuclease from Moraxella bovis (Pingoud, V., Conzelmann, C., Kinzebach, S., Sudina, A., Metelev, V., Kubareva, E., Bujnicki, J. M., Lurz, R., Luder, G., Xu, S. Y., and Pingoud, A. (2003) J. Mol. Biol. 329, 913-929). Nevertheless, MboI has a dissimilar DNA specificity (downward arrow GATC) compared with these enzymes. In this study, we characterize MboI in detail to determine whether it utilizes a mechanism of DNA recognition similar to SsoII, PspGI, EcoRII, NgoMIV, and Cfr10I. Mutational analyses and photocross-linking experiments demonstrate that MboI exploits the stretch of approximately 70 amino acids for DNA recognition and cleavage. It is therefore likely that MboI shares a common evolutionary origin with SsoII, PspGI, EcoRII, NgoMIV, and Cfr10I. This is the first example of a relatively close evolutionary link between Type II restriction enzymes of widely different specificities.
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PMID:Specificity changes in the evolution of type II restriction endonucleases: a biochemical and bioinformatic analysis of restriction enzymes that recognize unrelated sequences. 1556 60

SJG-136 (3) is a novel pyrrolobenzodiazepine (PBD) dimer that is predicted from molecular models to bind in the minor groove of DNA and to form sequence-selective interstrand cross-links at 5'-Pu-GATC-Py-3' (Pu = purine; Py = pyrimidine) sites through covalent bonding between each PBD unit and guanines on opposing strands. Footprinting studies have confirmed that high-affinity adducts do form at 5'-G-GATC-C-3' sequences and that these can inhibit RNA polymerase in a sequence-selective manner. At higher concentrations of SJG-136, bands that migrate more slowly than one of the 5'-G-GATC-C-3' footprint sites show significantly reduced intensity, concomitant with the appearance of higher molecular weight material near the gel origin. This phenomenon is attributed to interstrand cross-linking at the 5'-G-GATC-C-3' site and is the first report of DNA footprinting being used to detect interstrand cross-linked adducts. The control dimer GD113 (4), of similar structure to SJG-136 but unable to cross-link DNA due to its C7/C7'-linkage rather than C8/C8'-linkage, neither produces footprints with the same DNA sequence nor blocks transcription at comparable concentrations. In addition to the two high-affinity 5'-G-GATC-C-3' footprints on the MS2 DNA sequence, other SJG-136 adducts of lower affinity are observed that can still block transcription but with lower efficiency. All these sites contain the 5'-GXXC-3' motif (where XX includes AG, TA, GC, CT, TT, GG, and TC) and represent less-favored cross-link sites. In time-course experiments, SJG-136 blocks transcription if incubated with a double-stranded DNA template before the transcription components are added; addition after transcription is initiated fails to elicit blockage. Single-strand ligation PCR studies on a sequence from the c-jun gene show that SJG-136 binds to 5'-GAAC-3'/5'-GTTC-3' (preferred) or 5'-GAGC-3'/5'-GCTC-3' sequences. Significantly, adducts are obtained at the same sequences following extraction of DNA from drug-treated K562 cells, confirming that the agent reaches the cellular genome and interacts with the DNA in a sequence-selective fashion. Finally, SJG-136 efficiently inhibits the action of restriction endonuclease BglII, which has a 5'-A-GATC-T-3' motif at its cleavage site.
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PMID:Sequence-selective interaction of the minor-groove interstrand cross-linking agent SJG-136 with naked and cellular DNA: footprinting and enzyme inhibition studies. 1576 41

Two GATC specific methylases together with Sau3AI isoschizomeric restriction endonuclease were partially characterized in Mitsuokella multiacida 46/5. This is the first report on the presence of solitary Dam methyltransferase alongside GATC specific restriction-modification system resulting in the unusual two-fold methylation of the GATC motifs.
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PMID:A unique pair of GATC specific DNA methyltransferases in Mitsuokella multiacida. 1632 90

Half of hereditary nonpolyposis colon cancer kindreds harbor mutations that inactivate MutLalpha (MLH1*PMS2 heterodimer). MutLalpha is required for mismatch repair, but its function in this process is unclear. We show that human MutLalpha is a latent endonuclease that is activated in a mismatch-, MutSalpha-, RFC-, PCNA-, and ATP-dependent manner. Incision of a nicked mismatch-containing DNA heteroduplex by this four-protein system is strongly biased to the nicked strand. A mismatch-containing DNA segment spanned by two strand breaks is removed by the 5'-to-3' activity of MutSalpha-activated exonuclease I. The probable endonuclease active site has been localized to a PMS2 DQHA(X)(2)E(X)(4)E motif. This motif is conserved in eukaryotic PMS2 homologs and in MutL proteins from a number of bacterial species but is lacking in MutL proteins from bacteria that rely on d(GATC) methylation for strand discrimination in mismatch repair. Therefore, the mode of excision initiation may differ in these organisms.
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PMID:Endonucleolytic function of MutLalpha in human mismatch repair. 1687 53

DNA methylation catalyzed by methylase plays an important role in many biological events. However, traditional methods of methylase activity analysis by gel electrophoresis were laborious and discontinuous. In this paper, we report a new strategy to study methylase activity using fluorescent probes coupled with enzyme-linkage reactions. A hairpin DNA probe is prepared with a fluorophore and a quencher linked at the 5'- and 3'-terminus of the probe. A disturbance of the stem sequence by DNA methylation would cause the separation of the fluorophore and the quencher, resulting in the restoration of the fluorescence. We used DNA adenine methylation (Dam) methyltransferase (MTase) and Dpn I endonuclease, both having a 5'-G-A-T-C-3' recognition sequence. Dam MTase catalyzed the methylation of the sequence of 5'-GATC-3', and Dpn I cut the sequence of 5'-G-Am-T-C-3'. The fluorescence of the hairpin probe was restored when it was cleaved by Dpn I endonuclease during the course of methylation. Unlike traditional methods, this assay was done in real time and could be used to monitor the dynamic process of methylation. Our method is easy, simple, and nonradioactive, yet as efficient as gel electrophoresis in detecting the activity of methylase. It also had the potential to screen suitable inhibitor drugs for Dam methylase.
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PMID:Hairpin fluorescence DNA probe for real-time monitoring of DNA methylation. 1726 34

Sau3AI is a type II restriction endonuclease that recognizes the palindromic sequence 5'-GATC-3' and cleaves 5' to G residue on each strand. The E64A mutant full length protein was cloned and expressed in Escherichia coli. The purified (His) (6)-tagged protein has monomer and dimer fraction and was crystallized by the hanging-drop vapor-diffusion technique. The dimer protein crystals can diffract to 3.0A. resolution and the monomer protein crystals can diffract to better than 2.8A. resolution. One completed dataset has been collected and it shows that the monomer orthorhombic Sau3AI/E64A crystal is in space group C2221 with unit cell parameters (69.44, 197.60, 191.46, 90, 90, 90) and contains two molecules in one asymmetric unit.
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PMID:Crystallization and preliminary X-ray analysis of Sau3AI/E64A mutant protein. 1758 79

The hemimethylated d(GATC) sequence that directs Escherichia coli mismatch repair can reside on either side of a mismatch at a separation distance of 1,000 bp or more. Initiation of repair involves the mismatch-, MutS-, and MutL-dependent activation of MutH endonuclease, which incises the unmethylated strand at the d(GATC) sequence, with the ensuing strand break serving as the loading site for the appropriate 3'-to-5' or 5'-to-3' excision system. However, the mechanism responsible for the coordinated recognition of the mismatch and a hemimodified d(GATC) site is uncertain. We show that a protein roadblock (EcoRI(E111Q), a hydrolytically defective form of EcoRI endonuclease) placed on the helix between the two DNA sites inhibits MutH activation by 70-80% and that events that escape inhibition are attributable, at least in part, to diffusion of EcoRI(E111Q) away from its recognition site. We also demonstrate that a double-strand break located within the shorter path linking the mismatch and a d(GATC) site in a circular heteroduplex abolishes MutH activation, whereas a double-strand break within the longer path is without effect. These findings support the idea that initiation of mismatch repair involves signaling along the helix contour.
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PMID:Protein roadblocks and helix discontinuities are barriers to the initiation of mismatch repair. 1766 20

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