Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.26 (invertase)
 4,927 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Micrococcal nuclease digestion has been used to investigate some fine details of the chromatin structure of the yeast SUC2 gene for invertase. Precisely positioned nucleosomes have been found on a 2 kb sequence from the 3' non-coding region, and four nucleosomes also seem to occupy fixed positions on the 5' flank. Eleven nucleosomes lie on the coding region, although their positioning is not as precise as in the flanks. When the gene is derepressed, these latter nucleosomes adopt a more open conformation and so do two of the nucleosomes positioned on the 5' flank. A dramatic change occurs in the 3' flank, whose involvement in the structural transitions of chromatin upon gene activation is postulated. All the observed features are conserved when the gene is inserted in either a single copy centromeric plasmid or in a multicopy, 2 micron circle-based plasmid.
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PMID:Fine analysis of the chromatin structure of the yeast SUC2 gene and of its changes upon derepression. Comparison between the chromosomal and plasmid-inserted genes. 282 86

The yeast genome contains a dispersed family of invertase structural genes (SUC1-SUC5, SUC7). Five of these genes are located very close to telomeres and are flanked by large regions of homologous sequence; recombination between telomeres could account for the dispersal of these SUC genes to different chromosomes. The SUC2 locus, in contrast, is not near a telomere and does not share large regions of flanking homology with the other loci. We examine here the relationship between SUC2 and one of the telomeric genes, SUC7. Sequence comparison revealed homology extending from about position -624 to +1791, which is close to the end of the mRNA. The 5' noncoding sequence includes two highly conserved regions: the region between -140 and +1, which contains the TATA box and presumably other promoter elements, and a second region extending from -508 to -400, which corresponds to the upstream regulatory region.
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PMID:Comparison of two yeast invertase genes: conservation of the upstream regulatory region. 390 Sep 28

Non-coding nucleotide sequences located 5' upstream of the transcriptional start site play an essential role in gene expression as they contain binding sites for transcription and regulatory factors. The yeast SUC gene family is a useful model to study the influence that nucleotide exchanges within the promoter regions have on their expression, since (i) these genes, regulated by glucose repression, are differentially transcribed (invertase activity produced by distinct SUC genes may show variations of about 10-fold); and (ii) promoter sequences of SUC3, SUC4, SUC5 and SUC7 are more than 99% homologous, showing only six base exchanges among all of them. Comparison of these nucleotide exchanges with the expression of each SUC gene (located either on chromosomes or on multicopy and centromeric plasmids) points out that naturally occurring base exchanges as few as one nucleotide modification (G to A transition at position -497 relative to the translational start site, C to T transition at position -460 and insertion/deletion of a T at positions -590, -586 and -435) may have a strong effect on gene expression.
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PMID:Differential expression of SUC genes: a question of bases. 794 63

To infer the molecular evolution of polymeric beta-fructosidase SUC genes of the yeast Saccharomyces, we have cloned and sequenced a new SUC gene from S. cariocanus and determined the sequence similarity of beta-fructosidases within the genus Saccharomyces. The proteins of Saccharomyces cerevisiae and its five sibling species (S. bayanus, S. cariocanus, S. kudriavzevii, S. mikatae, S. paradoxus) have high degree of identity - 90-97%. The invertase of S. bayanus is the most divergent among the proteins studied. The data obtained indicated that the yeast invertases are highly conservative. In the coding regions of the SUC genes the pyrimidine transitions were the most abundant event due to silent changes mainly in the third codon position. There is only one, probably, non-telomeric SUC gene in each of the Saccharomyces species. In S. cerevisiae, S. bayanus, S. kudriavzevii, S. mikatae and S. paradoxus the SUC gene have been mapped on chromosome IX, whereas in S. cariocanus this gene is located in chromosone XV, in the position of translocation.
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PMID:[Comparative molecular-genetic analysis of the beta-fructosidases in yeast Saccharomyces]. 1598 71