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)

Nonclassic steroid 21-hydroxylase deficiency is a frequent, relatively mild disorder of cortisol biosynthesis, characterized by variable signs of postnatal androgen excess. It is inherited as an allelic variant of the gene designated CYP21B, which encodes 21-hydroxylase. CYP21B is located in the HLA histocompatibility complex, and a "nonclassic" allelic variant is often associated with characteristic HLA antigens--B14,DR1. We cloned and analyzed the CYP21B gene from a patient homozygous for HLA-B14,DR1 who had nonclassic 21-hydroxylase deficiency. Five deviations from the normal genetic sequence of CYP21B were found, but only one appeared likely to affect the functional integrity of the protein: codon 281, GTG, encoding valine, was changed to TTG, leucine. We constructed an oligonucleotide probe corresponding to the mutant DNA sequence surrounding codon 281 and hybridized the probe with DNA samples digested with the restriction endonuclease Taql. Samples from eight patients with nonclassic 21-hydroxylase deficiency who had the haplotype HLA-B14,DR1 contained a hybridizing fragment 3700 base pairs long, indicating the presence of the valine-281 mutation in the CYP21B gene. In contrast, unaffected subjects and one patient with nonclassic deficiency who did not have HLA-B14,DR1 had no evidence of this mutation. We conclude that the mutation in codon 281 is a consistent molecular genetic marker for nonclassic 21-hydroxylase deficiency associated with HLA-B14,DR1.
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PMID:Molecular genetic analysis of nonclassic steroid 21-hydroxylase deficiency associated with HLA-B14,DR1. 326 7

The Saccharomyces cerevisiae leucine-inserting amber suppressor tRNA gene SUP53 (a tRNALeu3 allele) was used to investigate the relationship between precursor tRNA structure and mature tRNA function. This gene encodes a pre-tRNA which contains a 32-base intron. The mature tRNASUP53 contains a 5-methylcytosine modification of the anticodon wobble base. Mutations were made in the SUP53 intron. These mutant genes were transcribed in an S. cerevisiae nuclear extract preparation. In this extract, primary tRNA gene transcripts are end-processed and base modified after addition of cofactors. The base modifications made in vitro were examined, and the mutant pre-tRNAs were analyzed for their ability to serve as substrates for partially purified S. cerevisiae tRNA endonuclease and ligase. Finally, the suppressor function of these mutant tRNA genes was assayed after their integration into the S. cerevisiae genome. Mutant analysis showed that the totally intact precursor tRNA, rather than any specific sequence or structure of the intron, was necessary for efficient nonsense suppression by tRNASUP53. Less efficient suppressor activity correlated with the absence of the 5-methylcytosine modification. Most of the intron-altered precursor tRNAs were successfully spliced in vitro, indicating that modifications are not critical for recognition by the tRNA endonuclease and ligase.
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PMID:Effect of intron mutations on processing and function of Saccharomyces cerevisiae SUP53 tRNA in vitro and in vivo. 353 24

Using a combination of restriction endonuclease digestion, nuclease BAL 31 treatment, and standard ligation procedures, a 4.4-kb DNA segment that carried the yeast LEU4 gene [encoding alpha-isopropylmalate synthase (IPMS) I] and adjoining sequences was excised from an appropriate plasmid and replaced with the yeast HIS3 gene. The new plasmid was digested to obtain a linear HIS3-carrying fragment flanked by remnants of the LEU4 region. Integrative transformation of a LEU4fbr LEU5+ his3- strain with this fragment resulted in the deletion of the LEU4 gene from the genome of some recipients, as demonstrated by transformant phenotype, genetic analysis and the absence of RNA capable of hybridizing to a LEU4 probe. The leu4 deletion strains remained Leu+. The extract of one such strain contained about 18% of the IPMS activity of wild-type cells. It is concluded that the residual activity is that of a second IPMS (IPMS II) that depends on an intact LEU5 locus. IPMS II was inhibited by leucine, but its sensitivity was about an order of magnitude lower than that of IPMS I. Deletion of the LEU4 region by the method utilized here resulted in an amino acid auxotrophy that could be satisfied by methionine, homocysteine, or cysteine. Complementation tests and genetic analysis demonstrated that the affected gene was MET4. Linkage to MET4 would place the LEU4 gene on the left arm of chromosome XIV.
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PMID:Total deletion of yeast LEU4: further evidence for a second alpha-isopropylmalate synthase and evidence for tight LEU4-MET4 linkage. 389 12

The hybrid plasmid pYBP2 with bacterial (ampR), yeast (LEU2) and bacteriophage T4 (denV) genes has been constructed. The plasmid transformed Escherichia coli CSR603 uvrA recA ampS leuA phr- to ampicillin resistance, leucine independence, UV-resistance similar to the one of uvrA+ recA strain. Cell-free extracts of transformed Escherichia coli cells contain low level of ultraviolet-endonuclease activity in contrast to nontransformed cells containing no enzyme.
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PMID:[Hybrid plasmid with bacterial and fungal markers carrying the denV gene of T4 phage and restoring the UV-resistance of E. coli uvrA]. 391 17

RNA segment 8 of the influenza virus genome is unique in coding for two polypeptides, NS1 (Mr, approximately 25,000) and NS2 (Mr, approximately 11,000). These polypeptides are synthesized from separate mRNA species. By using cloned DNA derived from RNA segment 8 (NS DNA) the two mRNAs have been mapped on segment 8 by hybridization of mRNAs with restriction endonuclease fragments of the DNA and nuclease S1 digestion methods. These data indicate that the body of the NS1 mRNA (approximately 850 nucleotides) maps at 0.05-0.95 units of the cloned NS DNA and the body of the NS2 mRNA (approximately 340 nucleotides) maps at 0.59-0.95 unitssuggesting that the two mRNAs are 3' coterminal and share the same poly(A) addition site. These positions of the mRNAs on the viral genome segment were confirmed in hybrid-arrested translation experiments using fragments of the cloned NS DNA to inhibit the synthesis in vitro of NS1 or NS2 polypeptides. In addition, in these translation experiments the use of certain DNA fragments resulted in premature termination of the NS1 polypeptide. From these data, it could be estimated that the termination of translation of NS1 is at approximately 0.76 map unit. Thus, the coding regions of the two mRNAs overlap by approximately 144-159 nucleotides, the equivalent of approximately 48-53 amino acids. Peptide mapping experiments indicated that polypeptides NS1 and NS2 do not share methionine- or leucine-containing tryptic peptides. The results obtained indicate the translation of the NS2 mRNA occurs in a reading frame different from that used for NS1.
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PMID:Mapping of the two overlapping genes for polypeptides NS1 and NS2 on RNA segment 8 of influenza virus genome. 624 9

The activity of an endonuclease(s) acting on double-stranded, ultraviolet-irradiated, and 2-acetylaminofluorene-bound DNA but not on double-stranded undamaged DNA triples within two hr after partial hepatectomy. Although the activity drops between four and six hr after operation, it remains above levels measured in livers of nonhepatectomized rats until 36 hr after operation. Between 36 and 48 hr after operation, the enzyme activity drops below the levels in liver of nonhepatectomized rats and then rises slowly to reach levels observed in nonhepatectomized animals between 48 hr and seven days after the operation. Studies on the effect of actinomycin on the activity of crude enzyme and on the incorporation of [14C]leucine and [14C]valine on the purified enzyme indicate that the increase in enzyme activity results from de novo synthesis. Eight % of endonucleolytic activity detectable in the crude homogenate is inhibited by an hyperimmune serum prepared against the purified enzyme. By adjusting the time of injection of 2-[14C]acetylaminofluorene with respect to the levels of enzyme activity after partial hepatectomy, an inverse correlation between binding and enzyme activity was demonstrated.
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PMID:Endonuclease activity on damaged DNA in rat regenerating liver. 626 60

A high proportion of cortical thymocytes obtained from suckling rats undergo apoptosis on exposure in vitro to the glucocorticoid methylprednisolone. The apoptotic cells can be separated from apparently normal thymocytes by isopyknic centrifugation on Percoll gradients. This experimental system provides homogeneous populations of apoptotic cells and thus permits a more incisive study of this physiologic mode of cell death than has been hitherto possible. It is shown that apoptosis involves a sharp but transient increase in buoyant density, concomitant with the appearance of characteristic morphologic changes in nucleus and cytoplasm. More than 80% fo the chromatin of apoptotic cells has a molecular weight sufficiently low to resist sedimentation at 27,000g and consists of short oligonucleosome chains, apparently as a result of endogenous endonuclease activity. By contrast, the chromatin of thymocytes that retain normal density (whether treated or control) is of high molecular weight. Apoptotic cells, unlike those of normal density, show little or no incorporation of nucleosides and amino acids into macromolecules. These investigators were unable to detect populations of cells intermediate between apoptotic and normal in buoyant density, morphologic characteristics, chromatin cleavage, or leucine incorporation, but evidence is presented suggesting that thymidine and uridine incorporation may fall prior to development of apoptosis.
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PMID:Hormone-induced cell death. Purification ad properties of thymocytes undergoing apoptosis after glucocorticoid treatment. 628 72

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 gene for the H-2K class I antigen of the bm1 variant was cloned and analyzed at the DNA level and compared with the previously cloned parent B6/Kh gene. Sequence determination and comparative restriction endonuclease studies indicate that Kbm1 is derived from the Kb gene. Seven nucleotide changes within a 13-nucleotide stretch distinguish the mutant from the parent gene and result in amino acid differences at positions 152, 155, and 156 in the antigen. The data confirm previously reported changes at amino acid positions 155 and 156 (arginine to tyrosine and leucine to tyrosine, respectively) and extend the altered region to include two nucleotides encoding a glutamate to alanine substitution at amino acid 152, a change not detected by the protein studies because of limitations of the methods used. The DNA sequence encoding this region of the Kbm1 glycoprotein is identical to the DNA sequence of at least one other known class I gene in the mouse, a finding consistent with the hypothesis that the mutation was not a random event but may be the result of a block transfer of information by a copy mechanism analogous to gene conversion. As the sequence analysis of the coding region for the first 273 amino acid residues shows identity between parent and mutant except for the seven nucleotide changes, all variant-parent functional differences must depend only on the cluster of three amino acid differences in the second domain of the Kb glycoprotein.
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PMID:Comparison of the cloned H-2Kbm1 variant gene with the H-2Kb gene shows a cluster of seven nucleotide differences. 630 Aug 87

Genomic DNA from a hemoglobin (Hb) Lepore Boston (delta 87 Gln beta 116 His) homozygote of Southern Italian origin has been studied in order to map the fusion point between the delta and beta genes. An Ava II restriction endonuclease recognition sequence, located 12 base pairs (bp) downstream from the 5' end of the beta gene large intervening sequence, has been taken as marker of the beta-like portion of the fusion gene. This site was present even in the delta beta gene, allowing the localization of the crossover area to a 59-bp region extending from the first nucleotide of the Leu codon in position 88 to the 11th nucleotide of the large intervening sequence. The analysis of the DNA restriction polymorphisms in the gamma delta beta globin gene region provides evidence that a single mutational event originated the Lepore delta beta genes, at least in the Italian population.
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PMID:The delta beta crossover region in Lepore boston hemoglobinopathy is restricted to a 59 base pairs region around the 5' splice junction of the large globin gene intervening sequence. 630 43

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