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)

We describe here a sensitive and straightforward method for characterizing the methylation specificity of type II DNA methyltransferase (MTase) using matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry. DNA substrate, prepared by ligation of a commercially available oligonucleotide, was modified by the subject MTase, and was derivatized to a mixture of single-stranded oligonucleotides through endonuclease treatment, heat-denaturation and limited digestion by 3'-terminus-specific phosphodiesterase I. MALDI-TOF mass spectrometry was used to determine the mass differences between the digestion products, and the methylated nucleotide was explicitly identified by the mass increase of 14 Da due to the base modification. The method was applicable to the three representative MTases M. Eco RI, M. Bam HI and M. Hae III.
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PMID:Determination of methylation specificity of sequence-specific DNA methyltransferases using matrix assisted laser desorption/ionization time-of-flight mass spectrometry. 932 74

Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI/TOF-MS) of a restriction endonuclease digest determines the molecular mass of PCR-amplified DNA more easily than measurement of undigested DNA. With this method, a 664 bp region from the FAS gene could be analyzed and a two-nucleotide deletion in the L1CAM gene was detected in a restriction fragment of 105 nucleotides. Furthermore, the analysis of smaller fragments allowed separate detection of single-stranded oligonucleotides comprising individual digested fragments. This mixture analysis of restriction enzyme digests improves the resolution, sensitivity and accuracy of MALDI/TOF-MS of DNA and is thus expected to facilitate its application to genetic diagnosis.
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PMID:Separate analysis of complementary strands of restriction enzyme-digested DNA. An application of restriction fragment mass mapping by matrix-assisted laser desorption/ionization mass spectrometry. 948 89

RNase H is an endonuclease which cleaves RNA at points of hybridization with DNA. However, certain ambiguities exist in terms of its specificity and location of cleavage along the RNA strand. The analysis of RNase H reaction products of an oligoribonucleotide hairpin by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI/TOF-MS) is demonstrated. The oligoribonucleotide studied has a highly stable secondary structure which reduces the efficiency of hybridization with the chimeric oligonucleotide used to direct RNase H cleavage. By monitoring the reaction products under different conditions using MALDI/TOF-MS, the optimum variables for cleavage of this highly stable hairpin structure can be determined.
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PMID:Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry for the analysis of RNase H cleavage products. 987 24

Several studies have shown that ionizing radiation generates a wide spectrum of lesions to DNA including base modifications, abasic sites, strand breaks, crosslinks and tandem base damage. One example of tandem base damage induced by @OH radical inX-irradiated DNA oligomers is N -(2-deoxy-beta-d- erythro -pentofuranosyl)-formylamine/8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxodGuo). In order to investigate the biological significance of such a tandem lesion, both 8-oxo-7,8-dihydroguanine and formylamine were introduced into synthetic oligonucleotides at vicinal positions using the solid phase phosphoramidite method. For this purpose, a new convenient method of synthesis of 8-oxodGuo was developed. The purity and integrity of the modified synthetic DNA fragments were assessed using different complementary techniques including HPLC, polyacrylamide gel electrophoresis, electrospray and MALDI-TOF mass spectrometry. The piperidine test applied to the double modified base-containing oligonucleotides revealed the high alkaline lability of formylamine in DNA. In addition, various enzymatic experiments aimed at determining biochemical features of such multiply damaged sites were carried out using the synthetic substrates. The pro-cessing of the vicinal lesions by nuclease P1, snake venom phosphodiesterase, calf spleen phospho-diesterase and repair enzymes including Escherichia coli endonuclease (endo) III and Fapy-glycosylase was studied and is reported.
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PMID:Synthesis and enzymatic processing of oligodeoxynucleotides containing tandem base damage. 992 34

Data on five single-nucleotide polymorphisms (SNPs) per gene are estimated to allow association of disease risks or pharmacogenetic parameters with individual genes. Efficient technologies for rapidly detecting SNPs will therefore facilitate the mining of genomic information. Known methods for SNP analysis include restriction-fragment-length polymorphism polymerase chain reaction (PCR), allele-specific oligomer hybridization, oligomer-specific ligation assays, minisequencing, direct sequencing, fluorescence-detected 5'-exonuclease assays, and hybridization with PNA probes. Detection by mass spectrometry (MS) offers speed and high resolution. Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI TOF MS) can detect primer extension products, mass-tagged oligonucleotides, DNA created by restriction endonuclease cleavage, and genomic DNA. We have previously reported MALDI-TOF-monitored nuclease selections of modified oligonucleotides with increased affinity for targets. Here we use nuclease selections for genotyping by treating DNA to be analyzed with oligonucleotide probes representing known genotypes and digesting probes that are not complementary to the DNA. With phosphodiesterase I, the target-bound, complementary probe is largely refractory to nuclease attack and its peak persists in mass spectra (Fig. 1A). In optimized assays, both alleles of a heterozygote were genotyped with six nonamer DNA probes (> or = 125 fmol each) and asymmetrically amplified DNA from exon 10 of the cystic fibrosis transmembrane regulatory gene (CFTR).
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PMID:Rapid genotyping by MALDI-monitored nuclease selection from probe libraries. 1106 45

Among the 14 inteins of the Pyrococcus abyssi genome, 10 harbour the LAGLIDADG motifs of dodecapeptide endonucleases. Four of these were cloned, expressed in Escherichia coli and purified to assay their potential endonuclease activity. PabRIR1-2 and PabRIR1-3 are specific endonucleases, named PI-PabI and PI-PabII, respectively, cleaving the sequence spanning their homing site. This is consistent with their size and with the relative positions and sequences of their endonuclease motifs. However, PI-PabI is 10-fold more active than PI-PabII and a discrepancy of the DNA recognition and cleavage mechanisms was observed between the two inteins. In particular, analysis of the DNA cleavage reactions by MALDI-TOF highlighted that while the cleavage of DNA by PI-PabI consists of two steps corresponding to the cleavage of each DNA strand, PI-PabII processes the two DNA strands simultaneously. Furthermore, the two inteins interact differently with DNA. In addition, we did not detect any endonuclease activity for PabLon and PabRIR1-1. Deletions in the intein sequences and mutations in the putative endonuclease motifs probably abolish this activity. Hence, inteins from the same archaebacteria, even if contained in the same host protein, did not evolve uniformly and are presumably at different stages of the invasion cycle.
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PMID:Investigating the endonuclease activity of four Pyrococcus abyssi inteins. 1236 94

We describe the application of matrix-assisted laser desorption/ionisation time-of-flight mass spectrometry (MALDI-TOF MS) for the characterisation of short tandem repeat (STR) sequences by the analysis of endonuclease cleaved RNA transcripts. Several simple bovine STR loci as well as interrupted and compound microsatellites were chosen as model loci to evaluate the capabilities of MALDI-TOF MS for STR analysis. In short, the described approach consists of a PCR amplification of the investigated STR sequence, which then is transcribed into RNA and cleaved by G-specific RNase T1. Base-specific cleavage of the transcript results in high informative fragment patterns from both the repetitive core sequence and the flanking region. Since sequence specificity from endonuclease cleavage is combined with the accuracy of MALDI-TOF measurements, this technique allows for fast and reliable determination of simple repeat lengths as well as for further characterisation of STR allele sequences, which is of high interest especially in more complex STR loci.
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PMID:Rapid and accurate characterisation of short tandem repeats by MALDI-TOF analysis of endonuclease cleaved RNA transcripts. 1473 17

The unique advantage of genetic engineering techniques for the design and development of polymers for controlled gene delivery lies in exquisite control over polymer structure. In this article we report the biosynthesis and characterization of a series of new silk-elastinlike protein polymers (SELPs), namely, SELP415K, with larger elastin blocks per monomer unit than SELP47K previously studied for matrix-mediated gene delivery. A new cloning strategy was used, where a block of eight elastin units (8E) was integrated into the existing DNA sequence of SELP47K monomer genes using appropriate restriction endonuclease recognition sites. Following random multimerization, multimer gene segments of desired size were selected, expressed, and purified on Ni-agarose columns. The molecular weight and sequence composition of the purified SELPs were determined by MALDI-TOF and amino acid analysis, respectively. The influence of structural changes on the rheological properties of the polymers was investigated. In addition, hydrogel disks were prepared from 47K and 415K-8mer polymer solutions, and the effects of cure time and environmental conditions on the hydrogel equilibrium swelling ratio as a function of polymer composition were studied. DNA sequencing and agarose gel electrophoresis confirmed the successful cloning of the monomer gene segment of SELP415K consisting of 312 bp. Random concatemerization of SELP415K monomer gene segments resulted in a library of SELP415K multimer sequences of 6, 8, and 10 repeats respectively, each yielding a polymer with exact molecular weight and sequence. Rheometric measurements showed that both complex shear modulus (G*) and gelation point were influenced by polymer composition. Equilibrium swelling studies on hydrogel disks prepared from 47K and 415K-8mer polymer solutions showed that changes in polymer composition resulted in different gelation patterns and increased sensitivity toward changes in temperature and ionic strength but not pH. Together these results demonstrate the potential of recombinant techniques in engineering polymers with defined structures which allows the study of the structural parameters affecting matrix-mediated delivery of genes and bioactive agents.
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PMID:Molecular engineering of silk-elastinlike polymers for matrix-mediated gene delivery: biosynthesis and characterization. 1580 88

Properties of 2'-aldehyde-containing double stranded DNAs (dsDNAs) have been studied for the first time as substrate analogs of the restriction endonuclease SsoII. These reactive oligonucleotides were successfully cross-linked to the restriction endonuclease SsoII by reductive amination, and conditions for DNA-protein conjugate trypsinolysis followed by the oligonucleotide-peptide conjugate purification were optimized. Use of MALDI-TOF mass spectrometry revealed that covalent linkage forms between the sugar moiety of the central pyrimidine nucleoside of the SsoII recognition site and Lys173 of the enzyme. The latter is probably involved in initial steps of enzyme-substrate recognition during dsDNA readout.
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PMID:Affinity modification of the restriction endonuclease SsoII by 2'-aldehyde-containing double stranded DNAs. 1621 52

Specific protein-nucleic acid interactions are of paramount importance for the propagation, maintenance and expression of genetic information. Restriction endonucleases serve as model systems to study the mechanisms of DNA recognition by proteins. SsoII is a Type II restriction endonuclease that recognizes the double stranded sequence downward arrow CCNGG and cleaves it in the presence of Mg(2+)-ions, as indicated. SsoII shows sequence similarity over a stretch of approximately 70 amino acid residues with several other restriction endonucleases that recognize a similar sequence as SsoII (Cfr10I, EcoRII, NgoMIV, PspGI). In NgoMIV this stretch is involved in DNA recognition and cleavage, as shown by the crystal structure analysis of an enzyme-product complex. To find out whether the presumptive DNA recognition region in SsoII is indeed in contact with DNA we have photocrosslinked SsoII with an oligodeoxyribonucleotide in which the first guanine of the recognition sequence was replaced by 5-iodouracil. Following digestion by trypsin, the peptide-oligodeoxyribonucleotide conjugate was purified by Fe(3+)-IMAC and then incubated with hydrogen fluoride, which hydrolyzes the oligodeoxyribonucleotide to yield the peptide-deoxyuridine conjugate. The site of photocrosslinking was identified by MALDI-TOF-MS and MALDI-TOF-MS/MS to be Trp189, adjacent to Arg188, which aligns with Arg194 in NgoMIV, involved in recognition of the second guanine in the NgoMIV recognition sequence G downward arrow CCGGC. This result confirms previously published conclusions drawn on the basis of a mutational analysis of SsoII. The methodology that was employed here can be used in principle to identify the DNA binding site of any protein.
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PMID:Identification of base-specific contacts in protein-DNA complexes by photocrosslinking and mass spectrometry: a case study using the restriction endonuclease SsoII. 1688 Sep 75

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