EC:3.1.30.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

A DNA fragment of about 2000 base pairs carrying the gene for tRNA(1) (Ile) has been cloned from a total Eco RI endonuclease digest of Escherichia coli DNA. Sequence analyses revealed that about the first 850 base pairs from one end of the fragment contain a nucleotide sequence corresponding to that in the 3'-end of 16S rRNA. The gene for tRNA(Ile) follows the 16S rRNA gene and both genes flank a spacer sequence of 68 base pairs. The spacer region contains a repeating, a hair pin and a symmetrical structure when the sequence is viewed in the single stranded form. A notable hair pin structure is also observed in the region adjacent to the 3'-end of the tRNA(1) (Ile) gene. In addition, about 850 base pairs from the other end of the DNA fragment have been found to contain the nucleotide sequence of the 5'-end of 23S rRNA. The presence of the genes for tRNA(1) (Ile), 16S and 23S rRNA and the hybridization to tRNA(1) (Ala) suggest that this cloned DNA is part of one of the E. coli rRNA operons carrying these two tRNA genes as a spacer.Images
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PMID:Sequence of the gene for isoleucine tRNA1 and the surrounding region in a ribosomal RNA operon of Escherichia coli. 37 Jul 91

An inherited type of amyloidosis was suspected in an individual of Italian descent who presented with vitreous opacities. Although no family history of amyloidosis was apparent, the patient's transthyretin gene was examined and found not to possess any of the known transthyretin mutations. Complete DNA sequencing revealed a substitution of adenine for thymine in the second base of codon 84 causing an amino acid change of asparagine for isoleucine. The mutation was confirmed by demonstrating the loss of an Sfa N1 restriction endonuclease site. Allele-specific DNA amplification by polymerase chain reaction also was used to confirm the mutation. Either of these tests can be used for diagnosis. Asparagine 84 represents the second mutation associated with amyloidosis to occur at codon 84.
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PMID:A new transthyretin mutation associated with amyloidotic vitreous opacities. Asparagine for isoleucine at position 84. 135 83

Two leucine-binding proteins with overlapping specificities for the branched-chain amino acids are present in Escherichia coli. In order to study the basis of specificity for the very similar hydrophobic ligands, we have constructed a series of site-directed mutants of both proteins based on inspection of the leucine-isoleucine-valine-binding protein crystal structure reported by Sack et al. (Sack, J. S., Saper, M. A., and Quiocho, F. A. (1989) J. Mol. Biol. 206, 171-191). Each of the mutant proteins was overexpressed and purified, and their binding activity for a wide variety of potential ligands was measured. By introducing a common restriction endonuclease cleavage site in the two proteins, two hybrid binding proteins consisting of the amino-terminal third of one binding protein fused to the carboxyl-terminal two-thirds of the other were created. The results of these studies indicated that the binding site of the leucine-isoleucine-valine binding protein can accommodate a branch at the beta-carbon of the ligand and that hydrophilic groups on the ligand can be accommodated only in certain orientations. None of the single amino acid substitutions resulted in complete switches in specificity between the two proteins, suggesting that additional residues are involved in leucine binding and discrimination among the branched-chain amino acid substrates.
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PMID:Altering the binding activity and specificity of the leucine binding proteins of Escherichia coli. 200 77

The autosomal dominant prealbumin amyloidoses are late-onset disorders characterized by varying degrees of peripheral neuropathy, nephropathy and cardiomyopathy. To date, seven different single amino acid mutations in the plasma protein prealbumin (transthyretin) have been found to be associated with amyloidosis and each is the result of a single nucleotide change in the prealbumin gene. By virtue of the restriction endonuclease sites created by the point mutations which give rise to the protein variants, direct DNA tests using Southern analysis have already been developed for detection of the Met-30, Ile-33, Ala-60, Tyr-77 and Ser-84 prealbumin genes. As an alternative to Southern analysis, we have amplified discrete regions of the prealbumin gene using polymerase chain reaction (PCR) and used restriction enzyme analysis of the PCR products to detect the Met-30, Ala-60, Tyr-77 and Ser-84 prealbumin genes after agarose gel electrophoresis and staining with ethidium bromide. In comparison to Southern analysis these alternative tests yield results much more quickly and avoid the use and handling of radioactively labeled probes.
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PMID:Hereditary amyloidosis: detection of variant prealbumin genes by restriction enzyme analysis of amplified genomic DNA sequences. 215 45

An apolipoprotein (apo) B-specific monoclonal antibody, MB19, detects a commonly occurring two-allele genetic polymorphism in human apoB (Young, S. G., S. J. Bertics, L. K. Curtiss, D. C. Casal, and J. L. Witztum. 1986. Proc. Natl. Acad. Sci. USA. 83: 1101-1105). Antibody MB19 binds to two different allotypes of apoB, MB19(1) and MB19(2), with high and low affinity, respectively. The epitope for antibody MB19 is located within apoB-100 thrombolytic fragment T4 (apoB-100 amino acid residues 1-1297). In this study, we examined the relationship of the MB19 polymorphism to a C----T nucleotide substitution at apoB cDNA nucleotide 421. This nucleotide substitution results in a Thr----Ile substitution at apoB-100 amino acid 71, and it changes an ApaLI restriction endonuclease site in the apoB gene. The nucleotide substitution was easily detectable by ApaLI digestion of a 141-base pair fragment of the apoB gene obtained by enzymatic amplification of genomic DNA. In 62 subjects, the MB19 phenotype, as determined by radioimmunoassays, correlated perfectly with the ApaLI restriction site polymorphism in the amplified DNA. The apoB allotype MB19(1) is associated with an Ile at residue 71 and the absence of the ApaLI site, whereas the apoB allotype MB19(2) is associated with a Thr at residue 71 and the presence of the ApaLI site. We conclude that the amino acid substitution at residue 71 probably accounts for the MB19 polymorphism in apoB.
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PMID:An ApaLI restriction site polymorphism is associated with the MB19 polymorphism in apolipoprotein B. 247 Aug 48

The production of Moloney murine leukaemia virus from chronically infected cells was inhibited after starvation of glutamine. While the rate of synthesis of the precursor of the core proteins, Pr65gag, was not affected in the starved cells, its proteolytic processing was blocked. Pulse-chase experiments indicated that glutamine was required during the synthesis of Pr65gag to facilitate its subsequent processing. In addition, the synthesis of Pr200gag-pol, the precursor of the protease, reverse transcriptase and endonuclease, was inhibited in the glutamine-starved cells. Starvation for other essential amino acids such as tyrosine and isoleucine affected neither the synthesis nor the processing of the virus proteins. These results suggest that the readthrough mechanism which enables synthesis of the Pr200gag-pol polyprotein is modulated in the chronically infected cells by glutamine levels. Since the viral protease is part of the pol gene, its synthesis may be inhibited in the glutamine-starved cells and Pr65gag is therefore not processed.
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PMID:Glutamine starvation of murine leukaemia virus-infected cells inhibits the readthrough of the gag-pol genes and proteolytic processing of the gag polyprotein. 348 14

The fate of host tRNAs during T4 bacteriophage infection was investigated with Escherichia coli CTr5x, the only known host strain that is restrictive to RNA ligase and polynucleotide kinase mutants. Three CTr5x tRNA species were cleaved during infection. One was leucine tRNA1, which was cleaved in the extra arm, as reported elsewhere for E. coli B infected with bacteriophage T2 or T4. The other two were specific to E. coli CTr5x and were not cleaved in various other hosts. One of the cleaved CTr5x-specific tRNAs had an anticodon sequence of the E. coli B "major" isoleucine tRNA but otherwise little sequence homology. Both CTr5x-specific tRNAs were cleaved by a distinct T4-induced endonuclease, other than that of leucine tRNA1, because the CTr5x-specific cleavages (i) were induced later in infection, (ii) persisted with a T4 mutant deficient in leucine tRNA1 endonuclease, and (iii) occurred in the anticodon loop. The specific manifestation of the anticodon-directed endonuclease activity in T4-infected E. coli CTr5x suggests roles for RNA ligase and polynucleotide kinase in processing of host tRNA species.
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PMID:Bacteriophage T4-induced anticodon-loop nuclease detected in a host strain restrictive to RNA ligase mutants. 629 15

The complete amino acid sequence of yeast phosphoglycerate kinase, comprising 415 residues, was determined. The sequence of residues 1-173 was deduced mainly from nucleotide sequence analysis of a series of overlapping fragments derived from the relevant portion of a 2.95-kilobase endonuclease-HindIII-digest fragment containing the yeast phosphoglycerate kinase gene. The sequence of residues 174-415 was deduced mainly from amino acid sequence analysis of three CNBr-cleavage fragments, and from peptides derived from these fragments after digestion by a number of proteolytic enzymes. Cleavage at the two tryptophan residues with o-iodosobenzoic acid was also used to isolate fragments suitable for amino acid sequence analysis. Determination of the complete sequence now allows a detailed interpretation of the existing high-resolution X-ray-crystallographic structure. The sequence -Ile-Ile-Gly-Gly-Gly- occurs twice in distant parts of the linear sequence (residues 232-236 and 367-371). Both these regions contribute to the nucleoside phosphate-binding site. A comparison of the sequence of yeast phosphoglycerate kinase reported here with the sequences of phosphoglycerate kinase from horse muscle and human erythrocytes shows that the yeast enzyme is 64% identical with the mammalian enzymes. The yeast has strikingly fewer methionine, cysteine and tryptophan residues.
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PMID:The complete amino acid sequence of yeast phosphoglycerate kinase. 634 86

Cytochrome P450 (CYP) 2C9 catalyses the metabolism of a wide range of drugs. Previous studies have shown the differences in the amino acid composition among CYP2C9 variants at Cys144/Arg, Tyr358/Cys, Leu359/Ile, and Gly417/Asp. PCR-endonuclease digestion methods have been developed to detect these four possible polymorphisms. The T416-->C mutation in exon 3 of CYP2C9 (Cys144-->Arg) creates an Ava II site. In the 135 subjects we tested, all leukocyte DNA samples showed a complete Ava II digestion indicating homozygous C416 (Arg144). A Tyr358-->Cys mutation will create a Nsi I site at codon 1057-1063 in exon 7. In 40 subjects tested, all samples showed negative results. DNA sequencing on a few samples showed Tyr358Ile359. A mismatched PCR primer pair was then designed to detect codon C1061-->A (Leu359-->Ile) mutation. In 115 subjects tested, 111 samples showed a complete Nsi I digestion (Ile359) and four samples showed heterozygous results. Another mismatched PCR primer pair was used to confirm the C1061 codon in heterozygous subjects. The four heterozygous subjects showed partial digestion with endonuclease Kpn I, which confirmed the heterozygous Ile/Leu at amino acid 359. The G1236-->A mutation in exon 8 of CYP2C9 (Gly417-->Asp) creates a Hph I site. In all 46 subjects, homozygous G1236 (Gly417) was found. Most Chinese subjects actually have Arg144 Tyr358 Ile359 Gly417 in CYP2C9 as previously reported human-2. Furthermore, we found an A-->T (+12 position in intron 2) mutation in our CYP2C9 sequencing process. The mutation creates a NIa III site.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Detection of CYP2C9 polymorphism based on the polymerase chain reaction in Chinese. 1196 81

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

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