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)

High-molecular-weight DNA is known to collapse into very compact particles in a salt solution containing polymers like poly(ethylene oxide) [(EO)n] or polyacrylate. The biological relevance of this phenomenon is suggested by our recent finding that high concentrations of the highly acidic internal peptides found in the mature T4 bacteriophage head, as well as poly(glutamic acid) and poly(aspartic acid), can collapse DNA in a similar manner. The structure of DNAs collapsed by various methods has been studied with electron microscope. We find (EO)n collapses T4 or T7 bacteriophage DNA into compact particles only slightly larger than the size of the T4 and T7 head, respectively. In contrast, polylysine collapses DNA into different types of structures. Double-stranded DNA collapsed with (EO)n is cut by the single-strand specific Neurospora crassa endonuclease (EC 3.1.4.21) into small fragments. Extensive digestion only occurs above the critical concentration of polymer required for DNA collapse, demonstrating the (EO)n-collapsed DNA contains enzyme-vulnerable regions (probably at each fold), which are preferentially attacked. The size of the DNA fragments produced by limit-digestion with the nuclease ranges between 200 and 400 base pairs when DNA is collapsed by (EO)n. Only fragments of DNA which are larger than 600 base pairs are cut by the endonuclease in (EO)n-containing solution.
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PMID:Characterization of DNA condensates induced by poly(ethylene oxide) and polylysine. 106 Jan 8

A mutant allele of the Escherichia coli nfo gene encoding endonuclease IV, nfo-186, was cloned into plasmid pUC18. When introduced into an E. coli xthA nfo mutant, the gene product of nfo-186 complemented the hypersensitivity of the mutant to methyl methanesulfonate (MMS) but not to hydrogen peroxide (H2O2) and bleomycin. These results suggest that the mutant endonuclease IV has normal activity for repairing DNA damages induced by MMS but not those induced by H2O2 and bleomycin. A missense mutation in the cloned nfo-186 gene, in which the wild-type glycine 149 was replaced by aspartic acid, was detected by DNA sequencing. The wild-type and mutant endonuclease IV were purified to near homogeneity, and their apurinic (AP) endonuclease and 3'-phosphatase activities were determined. No difference was observed in the AP endonuclease activities of the wild-type and mutant proteins. However, 3'-phosphatase activity was dramatically reduced in the mutant protein. From these results, it is concluded that the endonuclease IV186 protein is specifically deficient in the ability to remove 3'-terminus-blocking damage, which is required for DNA repair synthesis, and it is possible that the lethal DNA damage by H2O2 is 3'-blocking damage and not AP-site damage.
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PMID:A mutant endonuclease IV of Escherichia coli loses the ability to repair lethal DNA damage induced by hydrogen peroxide but not that induced by methyl methanesulfonate. 128 Feb 56

T4 endonuclease V catalyzes the hydrolysis of the glycosyl bond of a thymine dimer in a DNA duplex and the cleavage of the 3'-phosphate by beta-elimination. We have previously identified a catalytic site for the first reaction (pyrimidine dimer-glycosylase activity) by systematic mutagenesis (Doi et al. Proc. Natl. Acad. Sci. USA 1992 in press) and by x-ray crystallography (Morikawa et al. Science, 256: 523-526, 1992). The results showed that replacement of Glu23 with either glutamine or aspartic acid completely abolished the glycosylase activity. We describe the investigation of the second reaction (apurinic/apyrimidinic endonuclease activity), using twenty two mutants of T4 endonuclease V plus a DNA mini duplex containing an abasic site. Replacement of Glu23 by glutamine abolished the second reaction, but replacement with aspartic acid did not. The pH optima of the mutant (23 Asp) and the wild type were found to be 5.0 and 5.5, respectively. We conclude that the carboxylate anion in position 23 may act as a general base in the beta-elimination reaction of the endonuclease.
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PMID:Participation of glutamic acid 23 of T4 endonuclease V in the beta-elimination reaction of an abasic site in a synthetic duplex DNA. 135 29

Point mutations in the factor VIII gene are responsible for the majority of cases of hemophilia A, and only a small fraction of these mutations can be recognized by restriction endonuclease analysis. We have now used polymerase chain reaction and denaturing gradient gel electrophoresis to characterize single nucleotide substitutions in the factor VIII gene. Five regions of the gene were studied: exon 8, the 3' end of exon 14, exon 17, exon 18, and exon 24. A GC clamp was attached to the 5' PCR primer to allow detection of the majority of single base changes in DNA fragments ranging from 249 to 356 bp. Ten of eleven known point mutations were definitively separated. Fifty-two patients with unknown mutations were then studied by these methods, and the disease-producing mutation was found in three. First, we identified a new missense mutation in exon 14 which is the likely cause of hemophilia A in one patient (tyrosine changed to cysteine at amino acid residue 1709). Second, we found a new missense mutation in exon 18 in one patient (asparagine to aspartic acid at amino acid residue 1922). Third, a previously described mutation in exon 24 was detected (arginine changed to glutamine at amino acid residue 2209). In addition, a new polymorphic nucleotide substitution was found in intron 7. Moreover, these mutations can be detected when the GC-clamped PCR products from all five regions are run in the same denaturing gel. Our results indicate that denaturing gradient gel electrophoresis can be successfully applied to the analysis of point mutations in large genes whose transcripts are not readily available.
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PMID:Use of denaturing gradient gel electrophoresis to detect point mutations in the factor VIII gene. 210 80

The neo (neomycin-resistance) gene of transposon Tn5 encodes the enzyme neomycin phosphotransferase II (EC 2.7.1.95), which confers resistance to various aminoglycoside antibiotics, including kanamycin and G418. The gene is widely used as a selectable marker in the transformation of organisms as diverse as bacteria, yeast, plants, and animals. We found a mutation that involves a glutamic to aspartic acid conversion at residue 182 in the protein encoded by the chimeric neomycin phosphotransferase II genes of several commonly used transformation vectors. The mutation substantially reduces phosphotransferase activity but does not appear to affect the stability of the neomycin phosphotransferase II mRNA or protein. Plants and bacteria transformed with the mutant gene are less resistant to antibiotics than those transformed with the normal gene. A simple restriction endonuclease digestion distinguishes between the mutant and the normal gene.
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PMID:A mutant neomycin phosphotransferase II gene reduces the resistance of transformants to antibiotic selection pressure. 215 50

The x-ray structure of the EcoRI endonuclease-DNA complex (3) suggests that hydrogen bonds between amino acids, glutamic acid 144, arginine 145, and arginine 200, and major groove base moieties are the molecular determinants of specificity. We have investigated residue 144 using aspartate and glutamine substitutions introduced by site-directed mutagenesis. Substitution with glutamine results in a null phenotype (at least a 2000-fold reduction in activity). On the other hand, the aspartic acid mutant (ED144) retained in vivo activity. Substrate binding and catalytic studies were done with purified ED144 enzyme. The affinity of the ED144 enzyme for the canonical sequence 5'-GAATTC-3' is about 340-fold less than the wild-type (WT) enzyme, while its affinity for nonspecific DNA is about 50 times greater. The ED144 enzyme cleaves one strand in the EcoRI site in plasmid pBR322 with a kcat/Km similar to WT. In contrast to the WT enzyme, the ED144 enzyme dissociates after the first strand cleavage. Partitioning between cleavage and dissociation at the first and second cleavage steps for the ED144 enzyme is extremely salt-sensitive. The altered partitioning results largely from a destabilization of the enzyme-DNA complex, particularly the enzyme-nicked DNA complex, with only small changes in the respective cleavage rates. The hydrogen bonds of Glu-144 are critical, they appear to act cooperatively with other specificity contacts to stabilize the enzyme-DNA complex.
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PMID:Probing the role of glutamic acid 144 in the EcoRI endonuclease using aspartic acid and glutamine replacements. 225 11

Rifampicin has been shown to inhibit the maturation of poxviruses at a discrete step in envelope formation (Moss et al., 1969; Pennington et al., 1970; Nagayama et al., 1970; Grimley et al., 1970). A rifampicin-resistant vaccinia virus mutant (RifR) was selected for its ability to grow in the presence of 100 micrograms/ml of rifampicin. Utilizing intact DNA or endonuclease restricted cloned DNA subfragments derived from the RifR mutant virus, the locus specifying rifampicin resistance was physically mapped by marker rescue analysis leftward of the unique XhoI site within the HindIII D fragment. DNA sequencing of a 445 bp fragment encompassing this region revealed an AT to GC transition when compared with the equivalent wild-type DNA fragment. Analysis of the six potential open reading frames within the 445-bp fragment indicated only one available open reading frame. On this basis, the rifampicin-resistant vaccinia virus mutant was shown to have a codon transition from asparagine to aspartic acid.
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PMID:Physical mapping and DNA sequence analysis of the rifampicin resistance locus in vaccinia virus. 300 72

Fourteen human interleukin-2 (IL-2) analogs have been cloned and expressed in E. coli, starting from a chemically synthesized gene for human IL-2 optimized for expression in E. coli. These analogs were purified to greater than 95% purity as determined by SDS-PAGE, and were measured for biological activity in a 3H-thymidine incorporation assay using an IL-2 dependent murine T-cell line (CTLL). One analog was made which eliminated the N-terminal 23 amino acids from the protein by replacing one restriction endonuclease fragment with another. This analog, which begins at an internal methionine, had no detectable CTLL activity. Thirteen analogs were constructed using oligonucleotide site-directed mutagenesis. Four of these analogs were truncated at various residues near the C-terminus (residues 106, 116, 121 and 126). These analogs had at least 500-fold lower CTLL activities than the natural recombinant IL-2. The remaining nine analogs had substitutions at 1, 2, or all 3 of the three cysteine residues in the protein (residues 58, 105 and 125). Substituting an alanine, asparagine, aspartic acid, or serine at residue 125 resulted in highly active molecules with CTLL activities similar to that of the natural recombinant IL-2. The analogs with alanine and serine substitutions at residue 125 actually had slightly higher CTLL activities than the natural recombinant IL-2. Substituting alanine for cysteine at position 125 and serine for cysteine at either position 58 or 105 yielded analogs with about 150-fold lower CTLL activities than natural recombinant IL-2. Substituting an alanine for the cysteine at position 125 and serines for cysteines at both positions 58 and 105 resulted in an analog with 30-fold lower CTLL activity than the natural recombinant IL-2. The ten analogs with less than 1.0% of the CTLL activity of natural recombinant IL-2 were tested for competition with the natural recombinant IL-2 by mixing a 10-to 100- fold excess of the analog with the natural recombinant IL-2 and assaying the mixture in the CTLL assay. None of these analog mixtures resulted in a lower activity than mixing the natural recombinant IL-2 with buffer alone, implying that none of these analogs effectively competes with the natural recombinant IL-2 for binding to IL-2 receptors during incubation with the CTLL cells. If reduced binding does occur, it may be the direct cause of their lower activities.
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PMID:Construction, purification and biological activities of recombinant human interleukin-2 analogs. 306 70

A cDNA library was constructed using poly(A) +RNA from bovine mammary gland. This cDNA library of 6000 clones was screened employing colony hybridization using 32P-labelled oligonucleotide probes and restriction endonuclease mapping. The cDNA from the selected plasmid, pKR76, was sequenced using the dideoxy-chain termination method. The cDNA insert of pKR76 carries the full-length sequence, which codes for mature kappa-casein protein. The amino acid sequence deduced from the cDNA sequence fits the published amino acid sequence with three exceptions; the reported pyroglutamic acid at position 1, tyrosine at position 35, and aspartic acid at position 81 are, respectively, a glutamine, a histidine, and an asparagine in the clone containing pKR76. The MspI-, NlaIV-cleaved fragment (630 base pair) from the kappa-casein cDNA insert has been subcloned into expression vectors pUC18 and pKK233-2, which contain a lac promoter and a trc promoter, respectively. Escherichia coli cells carrying the recombinant expression plasmids were shown to produce kappa-casein protein having the expected mobility on sodium dodecyl sulfate-polyacrylamide gel electrophoresis and being recognized by specific antibodies raised against natural bovine kappa-casein.
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PMID:Molecular cloning and expression of bovine kappa-casein in Escherichia coli. 328 96

Four cosmid clones, each with an average insert size of 40 kilobase pairs and containing the factor B gene, were isolated from a human genomic DNA library. The clones were identified by hybridization with a 515-base-pair cDNA probe isolated by using a unique 17-base synthetic oligonucleotide probe from a human liver cDNA library. The cosmid clones were characterized by restriction endonuclease digestion and Southern blotting, and a partial restriction map of the DNA represented in the cosmids was constructed. The Bb portion of the factor B gene is about 4 kb in length. DNA sequence analysis has resulted in the determination of 3.3 kb of sequence at the 3' end of the gene. This region codes for amino acids 87-505 of Bb and includes the whole of the serine proteinase domain of the protein. The three active site residues of histidine, aspartic acid, and serine found at positions 267, 317, and 440 of the Bb sequence, respectively, lie on separate exons. Other functional regions within the serine proteinase domain are separated also by intervening sequences.
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PMID:Molecular cloning and characterization of the gene coding for human complement protein factor B. 630 26

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