Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.30.2 (endonuclease)
 18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chromosomal DNA samples derived from various primates and other mammals (horse, sheep, rabbit, and mouse) were digested with restriction endonuclease and hybridized with a probe of the sixth exon of the human ADH gene, which is highly conserved in the class I alcohol dehydrogenase of these mammalian species. The copy number of the class I ADH gene in each species was estimated from the number of hybridized bands. Primate DNA samples showed three distinct bands in the blots of PstI digest and DraI digest. Moreover, most of the bands from primate DNA showed a similarity in size so as to allow us to assign the ADH1, ADH2, and ADH3 homologues in each species. In contrast, mouse has only one gene, and rabbit, sheep, and horse seem to have only two genes, for the class I ADH, which showed divergent hybridization bands. These results are consistent with the view that the human class I ADH gene cluster has been generated through gene multiplication events which occurred before the Catarrhini branch point in the course of primate evolution.
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PMID:Multiplication of the class I alcohol dehydrogenase locus in mammalian evolution. 198 5

DNA sequence analysis of wild-type and mutant ADH2 loci suggested that two unusual features 5' of the promoter, a 22-base-pair perfect dyad sequence and a (dA)20 tract, were important for regulation of this gene (D. W. Russell, M. Smith, D. Cox, V. M. Williamson, and E. T. Young, Nature [London] 304:652-654, 1983). Oligonucleotide-directed mutagenesis was used to construct ADH2 genes lacking the 22-base-pair dyad or the (dA)20 tract (V.-L. Chan and M. Smith, Nucleic Acids Res. 12:2407-2419, 1984). These mutant genes and other ADH2 deletions constructed by BAL 31 endonuclease digestion were studied after replacing the wild-type chromosomal locus with the altered alleles by the technique of gene transplacement (T. L. Orr-Weaver, J. W. Szostak, and R. S. Rothstein, Proc. Natl. Acad. Sci. USA 78:6354-6358, 1981), using canavanine resistance as the selectable marker. Deletions lacking the dyad failed to derepress normally and did not respond to mutations at the ADR1 locus, which encodes a protein necessary to activate ADH2. Deletions of the (dA)20 tract did not have a detectable phenotype. A small deletion located just 3' to the (dA)20 tract (between positions -164 and -146) had a low amount of ADR1-dependent transcription during repressed growth conditions, indicating that the regulatory protein encoded by ADR1 is present in a potentially active form during repression and that alterations of a DNA sequence in the promoter region can unmask its latent activity.
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PMID:ADR1-mediated regulation of ADH2 requires an inverted repeat sequence. 353 11

A conditional lethal system for biological containment of genetically modified strains of Saccharomyces cerevisiae is described. This suicide system is based on the intracellular production of the Serratia marcescens nuclease in the yeast cell, aiming at the destruction of the host genetic material. The S. marcescens nuclease, encoded by the nucA gene, is normally secreted by the bacterium into the medium. In the present work, the nucA gene, devoid of its signal peptide coding sequence, was cloned in a yeast expression vector, under control of the glucose-repressed S. cerevisiae alcohol dehydrogenase 2 gene (ADH2) promoter. When transformed into S. cerevisiae, the recombinant plasmid proved to be effective in killing the host cells upon glucose depletion from the medium, and the nuclease activity was found in lysates prepared from the transformants. In addition, the nuclease degrading effect was shown to reach chromosomal DNA in the yeast host. The killing effect of the nucA plasmid was also demonstrated in soil microcosm assays, indicating that whenever the GMM escapes into the environment where glucose is scarce, the nucA gene will be expressed and the resulting nuclease will destroy the genetic material and kill the cells. In contrast to other suicide systems that target the cell envelope, the advantage of the one described here is that it disfavours horizontal gene transfer from recombinant yeast cells to other microorganisms found in the environment.
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PMID:A conditional suicide system for Saccharomyces cerevisiae relying on the intracellular production of the Serratia marcescens nuclease. 1570 25