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 EcoRV restriction endonuclease cleaves DNA at its recognition sequence more readily with Mg2+ as the cofactor than with Mn2+ but, at noncognate sequences that differ from the EcoRV site by one base pair, Mn2+ gives higher rates than Mg2+. A mutant of EcoRV, in which an isoleucine near the active site was replaced by leucine, showed the opposite behavior. It had low activity with Mg2+, but, in the presence of Mn2+ ions, it cleaved the recognition site faster than wild-type EcoRV with either Mn2+ or Mg2+. The mutant was also more specific for the recognition sequence than the native enzyme: the noncognate DNA cleavages by wild-type EcoRV and Mn2+ were not detected with the mutant. Further mutagenesis showed that the protein required the same acidic residues at its active site as wild-type EcoRV. The Ile-->Leu mutation seems to perturb the configuration of the metal-binding ligands at the active site so that the protein has virtually no affinity for Mg2+ yet it can still bind Mn2+ ions, though the latter only occurs when the protein is at the recognition site. This contrasts to wild-type EcoRV, where Mn2+ ions bind readily to complexes with either cognate and noncognate DNA and only Mg2+ shows the discrimination between the complexes. The structural perturbation is a specific consequence of leucine in place of isoleucine, since mutants with valine or alanine were similar to wild-type EcoRV.
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PMID:An isoleucine to leucine mutation that switches the cofactor requirement of the EcoRV restriction endonuclease from magnesium to manganese. 863 50

We have used random mutagenesis to identify putative active-site residues in the C-terminal cytotoxic endonuclease domain of the bacterial toxin colicin E9. Six single-site mutations in the DNase domain were isolated which destroyed the toxic action of the colicin. DNA sequencing identified the mutations as Gly460Asp, Arg544Gly, Glu548Gly, Thr571Ile, His575Tyr and His579Tyr. All six wild-type residues are highly conserved in the DNase domains of both the E group colicins and the closely related pyocins. Site-directed mutagenesis was then used to substitute the wild-type amino acid residue at each of these positions for an alanine residue in order to distinguish important from unimportant sites. Two of the six alanine-mutant colicins (Gly460Ala and His579Ala) exhibited significant in vivo activity, unlike the original mutation of these residues, and were therefore not characterised further. The Thr571Ala mutant colicin, although not inactive, was significantly less active than the control. The other three alanine mutants (Arg544Ala, Glu548Ala and His575Ala remained completely inactive in the in vivo tests. Each 15 kDa alanine-mutant DNase domain was overexpressed and purified using a tandem-expression strategy which relies on the enzyme being able to bind to the natural inhibitor, Im9. Tryptophan emission spectra of the alanine mutants showed significant alterations in the emission maxima of all but the His575Ala mutant, suggesting changes in the tertiary structure of these mutant proteins. Activity measurements, using the spectrophotometric Kunitz assay, indicated that the Thr571Ala mutant was partially active as an endonuclease but the remaining alanine mutants were all completely inactive. All four mutant proteins, however, retained their ability to bind DNA in a gel shift assay, suggesting the mutations affect catalytic rather than substrate-binding residues. Searching the sequence databases for possible homology to other DNA-binding proteins revealed a significant match between residues 464 to 487 of the E9 DNase domain and helix IV of the POU domain of eukaryotic transcription factors.
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PMID:Identification of putative active-site residues in the DNase domain of colicin E9 by random mutagenesis. 870 51

HAP1 is a divalent cation-dependent endonuclease from human cells with specificity for apurinic/apyrimidinic (AP) sites in DNA. Extraction of the essential metal ion from purified HAP1 stabilized its binding to an oligonucleotide containing a single AP site, permitting AP site binding studies to be undertaken using gel retardation assays. Binding of HAP1 to such an oligonucleotide was dependent upon the presence of an AP site. Previous structural and modelling studies have suggested a role for Asn212 (Asn153 in exonuclease III, the bacterial homologue of HAP1) in substrate recognition. Substitution of alanine for Asn212 abolished the AP endonuclease activity of purified recombinant HAP1 protein. More conservative substitutions of aspartate or glutamine for Asn212 still led to a reduction in specific activity of at least 300-fold. Moreover, none of the three Asn212 substitution mutants of HAP1 possessed detectable AP site binding activity in vitro. This study indicates that chelation of the active site metal ion in HAP1 stabilizes the complex of the protein with AP sites and identifies an active site asparagine residue as an important component of AP site recognition by the HAP1 protein.
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PMID:Asparagine 212 is essential for abasic site recognition by the human DNA repair endonuclease HAP1. 893 75

We examined the nucleotide sequence of the arginine vasopressin-neurophysin II gene in three kindreds with autosomal dominant neurohypophyseal diabetes insipidus. Each of the three different mutations identified represents a recurrence of a mutation previously described to cause this disease. These mutations are all transitions (C1761-->T, G1859-->A, and G279-->A) that encode amino acid substitutions Pro24-->Leu, Gly57-->Ser (both in neurophysin II), and Ala-->Thr (in the last amino acid at the C-terminus of the signal peptide). The presence of these mutations in genomic DNA was confirmed by alterations in restriction endonuclease recognition sites. A linkage map of distal chromosome 20 was constructed. To examine the possibility that these apparent recurrent mutations arose independently rather than by an ancestral founder mutation, we analyzed family origins, two polymorphic markers on chromosome 20 in close proximity with this gene (the oxytocin/XbaI restriction fragment length polymorphism and the D20S57 polymorphic CA repeat microsatellite), and/or the occurrence of a de novo mutation in our three families and in four additional families previously reported. Our results suggest that one of our families may share an ancestral founder mutation with one previously reported family, but that in the remainder of the families with identical mutations, these mutations probably arose independently.
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PMID:Recurrent mutations in the vasopressin-neurophysin II gene cause autosomal dominant neurohypophyseal diabetes insipidus. 896 72

Molecular characterization of glucose-6-phosphate dehydrogenase (G6PD) variants was carried out in 150 unrelated G6PD deficient blood donors from the region of Campinas, Brazil. By allele specific oligomer hybridization or digestion of exon 4 of the G6PD gene with the restriction endonuclease NlaII, we detected the 202 G-->A mutation in 146 individuals. This mutation was associated with the 376 G-->A substitution and only one haplotype was observed in these individuals. Digestion of exon 6 with the restriction enzyme MboII showed the presence of the Mediterranean variant in three individuals. Haplotype analysis showed, in all three samples, a T at nt 1311 and the C at nt 13 in intron 11, suggesting a European origin of this variant. By SSCP analysis and direct sequencing we detected the mutation nt 1003 G-->A (335 Ala-->Thr) in one blood donor. This mutation was previously described in a boy of Indian ancestry and the variant was denominated G6PD Chatam. The case described here has no Indian ancestry; thus, we presume that the mutations have arisen independently, although we do not know the haplotype of the Indian patient. The haplotype of our case was the most common observed in our population (PvuII, BspHI+, PstI+, 1311C, NlaIII-). Thus, our data indicate that G6PD A- with the 202 G-->A mutation is the most frequent G6PD deficiency in the population of southeastern Brazil. The remaining variants had a Mediterranean origin. These results are in agreement with the origin of the Brazilian population.
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PMID:Molecular characterization of glucose-6-phosphate dehydrogenase deficiency in Brazil. 901 74

Two genetic mouse models for human phenylketonuria have been characterized by DNA sequence analysis. For each, a distinct mutation was identified within the protein coding sequence of the phenylalanine hydroxylase gene. This establishes that the mutated locus is the same as that causing human phenylketonuria and allows a comparison between these mouse phenylketonuria models and the human disease. A genotype/phenotype relationship that is strikingly similar to the human disease emerges, underscoring the similarity of phenylketonuria in mouse and man. In PAHENU1, the phenotype is mild. The Pahenu1 mutation predicts a conservative valine to alanine amino acid substitution and is located in exon 3, a gene region where serious mutations are rare in humans. In PAHENU2, the phenotype is severe. The Pahenu2 mutation predicts a radical phenylalanine to serine substitution and is located in exon 7, a gene region where serious mutations are common in humans. In PAHENU2, the sequence information was used to devise a direct genotyping system based on the creation of a new Alw26I restriction endonuclease site.
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PMID:Characterization of mutations at the mouse phenylalanine hydroxylase locus. 911 79

Control of Helminthosporium solani, the cause of silver scurf in potato tubers, has been impaired by selection of benzimidazole-resistant strains as a result of repeated use of the fungicide thiabendazole. Identification of thiabendazole-resistant strains of H. solani by conventional techniques takes several weeks. Primers designed from conserved regions of the fungal beta-tubulin gene were used to PCR amplify and sequence a portion of the gene. A point mutation was detected at codon 198 in thiabendazole-resistant isolates causing a change in the amino acid sequence from glutamic acid to alanine or glutamine. Species-specific PCR primers designed to amplify this region were used in conjunction with a restriction endonuclease to cause cleavage in sensitive isolates only and thus provide a rapid diagnostic test to differentiate field isolates.
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PMID:A PCR-based method to characterise and identify benzimidazole resistance in Helminthosporium solani. 923 30

The human leukemia cell line, HL60 is very sensitive to various apoptotic stimuli and p53-null. The death-related cysteine proteases of the caspases family play a central role in the execution phase of apoptosis, and we recently reported the importance of serine protease activation in camptothecin-induced apoptotic endonuclease activation in HL60 cells. In the present study, we investigated the role of caspases (ICE/CED-3-related cysteine proteases) and serine proteases in cell death induced by the topoisomerase I inhibitor, camptothecin, in HL60 cells and in a cell-free system. We found that CPP32 is activated during camptothecin-induced apoptosis, and that N-benzyloxycarbony-Val-Ala-Asp (O-methyl) -fluoromethyketone (Z-VAD-fmk), a cell permeable caspase inhibitor blocks all features of apoptosis: morphological changes, cleavage of caspase 3 (CPP32/Yama/Apopain) and poly(ADP-ribose) polymerase, lamin B degradation and DNA fragmentation. However, Z-VAD-fmk and two other ICE/CED-3 inhibitors, YVAD-CHO and DEVD-CHO, were inactive in a cell-free system reconstituted from nuclei of untreated HL60 cells and cytosol from camptothecin-treated cells, suggesting that caspases are not required for endonuclease activation or lamin B cleavage in the cell-free system. By contrast, the serine protease inhibitors, 3,4-dichloroisocoumarin (DCI) and L-1-chloro-3-(4-tosylamido)-4-phenyl-2-butanone tosyl-L-phenylalanine chloromethyl ketone (TPCK), abolished the apoptosis-associated biochemical changes induced by camptothecin both in whole cells and in a cell-free system. DCI also inhibited CPP32 cleavage. Taken together, these results suggest that in HL60 cells, both CPP32 and serine proteases are activated in camptothecin-induced apoptosis.
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PMID:Camptothecin-induced apoptosis in p53-null human leukemia HL60 cells and their isolated nuclei: effects of the protease inhibitors Z-VAD-fmk and dichloroisocoumarin suggest an involvement of both caspases and serine proteases. 926 76

We previously identified three distinct DNA endonucleases, DNases alpha, beta and gamma, present in rat thymocyte nuclei. On the basis of their enzymic and biochemical properties, gamma-type DNase was regarded as a candidate for the apoptotic endonuclease. Here we purified DNase gamma to apparent homogeneity from apoptotic rat thymocyte nuclei induced by X-irradiation and characterized its properties in detail. The purified DNase gamma exhibited one predominant protein band on SDS/PAGE and an endonuclease activity in a zymography with an estimated molecular mass of 33 kDa. The molecular mass of the native form determined by G2000SW gel-filtration HPLC was 30 kDa. Amino acid analysis showed that the amino acid composition of DNase gamma was similar to that of rat DNase I (molecular mass 32 kDa) but different with regard to alanine and lysine residues. The N-terminal amino acid sequence of DNase gamma was revealed to be not identical with that of rat DNase I. In accordance with previous studies, homogeneously purified DNase gamma requires both Ca2+ and Mg2+ for activity. This requirement could be partially supplied by Mn2+. Of the bivalent metal ions tested, Co2+, Ni2+, Cu2+ and Zn2+ inhibited DNase gamma activity. These bivalent cations also suppressed apoptotic DNA fragmentation in rat thymocytes irradiated by X-rays. The same order of inhibitory ability was observed for these bivalent metal ions in vivo (in intact cells) and in vitro, suggesting that the suppression of apoptotic DNA fragmentation at the cellular level is due to the inhibition of DNase gamma. DNase gamma activity was found to exist at high levels in spleen, lymph node, thymus, liver and kidney, but little was present in brain, heart or pancreas. On the basis of these findings, together with previous data, we conclude that DNase gamma is a novel DNase I-like endonuclease responsible for internucleosomal cleavage of chromatin during thymic apoptosis.
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PMID:Purification and properties of DNase gamma from apoptotic rat thymocytes. 930 16

The role of particular residues of the PvuII endonuclease in DNA binding and cleavage was studied by mutational analysis using a number of in vivo and in vitro approaches. While confirming the importance of residues predicted to be involved directly in function by the crystal structure, the analysis led to several striking results. Aspartate 34, which contacts the central base pair of the PvuII site (5'-CAGCTG-3') through the minor groove, plays a critical role in binding specificity. A D34G mutant binds with high affinity to any of the sequences in the set CANNTG, although its low level of cleavage activity acts only on the wild-type site. In addition, a His to Ala mutation at the residue that contacts the central G and is predicted to be blocked by PvuII methylation still requires the PvuII methylase to be maintained in vivo, arguing against this hypothesis as the only mechanism for methylation protection. Finally, four of the five mutations that reduce cleavage activity while still exhibiting binding in the gel shift assay are at residues that form DNA- or subunit-subunit contacts rather than in the catalytic center. This provides further evidence for a strong linkage between specific binding and catalysis.
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PMID:Catalytic and DNA binding properties of PvuII restriction endonuclease mutants. 932 3

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