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Query: KEGG:D03345 (beta-Galactosidase)
 434 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hybrid genes between the Escherichia coli lacZ gene and the iso-1-cytochrome c (CYC1) gene of Saccharomyces cerevisiae were constructed by recombination in vitro. Each of the hybrid genes encodes a chimeric protein with a cytochrome c moiety at the amino terminus and an active beta-galactosidase (beta-D-galactoside galactohydrolase, EC 3.2.1.23) moiety at the carboxy terminus. When these hybrids are introduced into S. cerevisiae on plasmid vectors, they direct synthesis of beta-galactosidase. beta-Galactosidase levels directed by one such plasmid display the pattern of regulation normally seen for cytochrome c (i.e., a reduction of synthesis in cells grown in glucose). This plasmid contains one codon of CYC1 fused to lacZ, and the fused gene is preceded by the 1100 nucleotides that lie upstream from CYC1. An analysis of deletions in the upstream DNA suggests that sequences required for efficient transcription initiation of CYC1 lie within the DNA segment 250--700 base pairs upstream from the start of the CYC1 coding sequence. This region is at least 130 base pairs upstream from the "Hogness box" sequence that precedes the CYC1 coding sequence.
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PMID:Fusion of Escherichia coli lacZ to the cytochrome c gene of Saccharomyces cerevisiae. 626 67

The GATA motif (WGATAR) is found in the promoter regions of numerous Caenorhabditis elegans genes, including two intestine-specific genes, vit-2 and ges-1, in which it has been shown to be required for promoter function. The protein ELT-1, encoded by a single-copy gene homologous to the GATA family of vertebrate transcription factors, is potentially capable of interacting with this element. In order to determine whether ELT-1 is a transcriptional activator that recognizes this sequence, we have expressed it under the control of the GAL1 promoter in yeast. lacZ driven by the CYC1 promoter lacking an upstream activation sequence (UAS) but containing GATA sequences was used as a reporter. beta-Galactosidase was expressed upon induction only when GATA sequences were present, and expression was increased dramatically by additional binding sites. Deletion analysis demonstrated that the C terminus, containing only one of the two zinc fingers, is sufficient for activation. In addition, the DNA-binding domain and two transactivation regions were identified by fusing these isolated domains to previously defined domains of heterologous transcription factors. While most single base alterations in the GATA core sequence eliminated activity, an A to C change in position four, creating a GATC core, was found to increase activity significantly. The deleted ELT-1 protein containing only the C-terminal Zn finger was sufficient for activation in response to GATA, but both fingers were required for activation at GATC. A variety of sites with non-optimal sequences surrounding the GATA core also were found to be excluded better by the protein containing both Zn fingers. Furthermore, a fusion protein containing the entire ELT-1 DNA binding domain fused to the VP16 activation domain was found to have an even greater preference for the GATC core, as well as the optimal flanking bases. We conclude that, although ELT-1 having only its C-terminal finger is capable of activation in response to the WGATAR site, the presence of the upstream finger supplies additional base specificity.
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PMID:Activity of a C. elegans GATA transcription factor, ELT-1, expressed in yeast. 747 42

A well-defined set of isogenic yeast strains has been constructed whereby each strain contains a different HXK2::lacZ gene fusion integrated at the URA3 locus. These HXK2::lacZ fusions differ in the amount of the HXK2 gene (encoding hexokinase 2 isoenzyme) that is fused to the lacZ reporter gene. Comparison of the beta-galactosidase activities of each strain during growth on glucose or ethanol revealed that some part of the coding region between +39 and +404 bp is involved in repressing gene expression in a carbon source dependent manner. A series of deletions of this HXK2 coding region were constructed and fused upstream of a minimal CYC1::lacZ promoter. beta-Galactosidase activities on glucose or ethanol growth yeast calls revealed that two different regulatory elements are present in this DNA region. Gel mobility shift analysis and in vitro DNase I footprinting have shown that proteins bind specifically to two downstream repressor sequences (DRS1 located from +140 to +163 and DRS2 located between +231 and +251) that influence the rate of HXK2 transcription when ethanol is used as carbon source by Saccharomyces cerevisiae. We identified and partially purified a 18 kDa protein that binds specifically to synthetic double-stranded oligonucleotides containing the (A/C)(A/G)GAAAT box sequence. Our data suggest that p18 synthesis is under the control of genes involved in glucose repression (MIG1 = CAT4) and glucose derepression (SNF1 = CAT1).
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PMID:Identification and characterisation of two transcriptional repressor elements within the coding sequence of the Saccharomyces cerevisiae HXK2 gene. 865 61

The effects of growth rate on cloned gene product synthesis in recombinant Saccharomyces cerevisiae have been studied in continuous culture. The plasmid employed contains a yeast GAL10-CYC1 hybrid promoter directing expression of the E. coli lacZ gene. beta-Galactosidase production was therefore controlled by the yeast galactose regulatory circuit, and the induction process and its effects were studied at the various dilution rates. At all dilution rates plasmid stability decreased with induction of lacZ gene expression. In some instances, two induced "steady states" were observed, the first 10-15 residence times after induction and the second after 40-50 residence times. The second induced steady state was characterized by greater biomass concentration and lower beta-galactosidase specific activity relative to the first induced "steady-state." beta-Galactosidase specific activity and biomass concentration increased as dilution rate was reduced, and despite lower flow rate and plasmid stability, overall productivity (activity/L/hr) was substantially higher at low dilution rate. Important factors influencing all of the trends were the glucose and galactose (inducer) concentrations in the vessel and inducer metabolism.
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PMID:Influence of dilution rate and induction of cloned gene expression in continuous fermentations of recombinant yeast. 1859 72