EC:3.2.1.23 - FACTA Search

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Query: EC:3.2.1.23 (beta-galactosidase)
14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have examined the expression of the gene encoding the iron-protein subunit (Ip) of succinate dehydrogenase in Saccharomyces cerevisiae. The gene had been cloned by us and shown to be subject to glucose regulation (A. Lombardo, K. Carine, and I. E. Scheffler, J. Biol. Chem. 265:10419-10423, 1990). We discovered that a significant part of the regulation of the Ip mRNA levels by glucose involves the regulation of the turnover rate of this mRNA. In the presence of glucose, the half-life appears to be less than 5 min, while in glycerol medium, the half-life is greater than 60 min. The gene is also regulated transcriptionally by glucose. The upstream promoter sequence appeared to have four regulatory elements with consensus sequences shown to be responsible for the interaction with the HAP2/3/4 regulatory complex. A deletion analysis has shown that the two distal elements are redundant. These measurements were carried out by Northern (RNA) analyses of Ip mRNA transcripts as well as by assays of beta-galactosidase activity in cells carrying constructs of the Ip promoter linked to the lacZ coding sequence. These observations on the regulation of mRNA stability were also extended to the mRNA of the flavoprotein subunit of succinate dehydrogenase and in some experiments of iso-1-cytochrome c.
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PMID:Control of mRNA turnover as a mechanism of glucose repression in Saccharomyces cerevisiae. 162 Jan 7

The ROX3 gene was identified during a hunt for mutants with increased expression of the heme-regulated CYC7 gene, which encodes the minor species of cytochrome c in the yeast Saccharomyces cerevisiae. The rox3 mutants caused a 10-fold increase in CYC7 expression both in the presence and absence of heme, had slightly increased anaerobic expression of the heme-activated CYC1 gene, and caused decreases in the anaerobic expression of the heme-repressed ANB1 gene and the aerobic expression of its heme-induced homolog. The wild-type ROX3 gene was cloned, and the sequence indicated that it encodes a 220-amino-acid protein. This protein is essential; deletion of the coding sequence was lethal. The coding sequence for beta-galactosidase was fused to the 3' end of the ROX3 coding sequence, and the fusion product was found to be localized in the nucleus, strongly suggesting that the wild-type protein carries out a nuclear function. Mutations in the rox3 gene showed an interesting pattern of intragenic complementation. A deletion of the 5' coding region complemented a nonsense mutation at codon 128 but could not prevent the lethality of the null mutation. These results suggest that the amino-terminal domain is required for an essential function, while the carboxy-terminal domain can be supplied in trans to achieve the wild-type expression of CYC7. Finally, RNA blots demonstrated that the ROX3 mRNA was expressed at higher levels anaerobically but was not subject to heme repression. The nuclear localization and the lack of viability of null mutants suggest that the ROX3 protein is a general regulatory factor.
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PMID:The ROX3 gene encodes an essential nuclear protein involved in CYC7 gene expression in Saccharomyces cerevisiae. 165 37

The cytochrome o terminal oxidase complex is a component of the aerobic respiratory chain of Escherichia coli. This enzyme catalyzes the oxidation of ubiquinol-8 to ubiquinone-8 within the cytoplasmic membrane and the concomitant reduction of O2 to H2O. The hydropathy profiles of the deduced amino acid sequences suggest that all five of the gene products of the cyo operon contain multiple membrane-spanning helical segments. The goal of this work was to obtain experimental evidence for the topology of the five gene products in the cytoplasmic membrane by using the technique of gene fusions. A number of random gene fusions were generated in vitro encoding hybrid proteins in which the amino-terminal portion was provided by the subunit of interest and the carboxyl-terminal portion by one of two sensor proteins, alkaline phosphatase lacking its signal sequence or beta-galactosidase. Results obtained are self-consistent, and topological models are proposed for all of the five gene products encoded by the cyo operon. Based on the sequence similarities with subunits of the aa3-type cytochrome c oxidases, the experimental evidence obtained here can be used to infer topological models for the mitochondrial encoded subunits of the eukaryotic cytochrome c oxidases.
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PMID:The use of gene fusions to determine the topology of all of the subunits of the cytochrome o terminal oxidase complex of Escherichia coli. 216 91

In Saccharomyces cerevisiae, the COR2 gene codes for the 40 kDa subunit II of the QH2: cytochrome c oxidoreductase, an enzyme of the mitochondrial respiratory chain. Regions in the 5' flank of this gene important for regulated expression were identified by assaying beta-galactosidase activities in cells carrying different COR2-lacZ fusion genes. Sequences downstream of position -201 relative to the translational initiation codon are sufficient to confer regulation by carbon source, whereas sequences downstream of position -153 do not give rise to significant expression. A binding site for the abundant general transcription factor GFI is present in the region between -201 and -153 just upstream from sequences which resemble the consensus DNA recognition sequence of the regulatory protein complex HAP2/HAP3: 5'-TNATTGGT-3'. By quantitating RNA levels and assaying beta-galactosidase activities we show that synthesis of COR2, which is not a hemoprotein, is regulated by HAP1, HAP2/HAP3 and heme.
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PMID:Expression of the gene encoding subunit II of yeast QH2: cytochrome c oxidoreductase is regulated by multiple factors. 216 71

In this study we have reconstituted transactivation of gene expression by the human glucocorticoid receptor in the yeast, Saccharomyces cerevisiae. We have expressed the C-terminal half of the human glucocorticoid receptor (residues 415-777), the smallest derivative that can be expected to function as a ligand-dependent activator of transcription, in yeast cells. The function of the expressed protein has been assayed using a reporter gene consisting of the beta-galactosidase gene from Escherichia coli fused to the yeast iso-1-cytochrome c promoter with a glucocorticoid-responsive element from the rat tyrosine aminotransferase gene upstream. Transactivation of expression from the reporter gene by the expressed receptor is seen only in the presence of steroid hormones with glucocorticoid activity and occurs via specific interaction of receptor with the glucocorticoid-responsive element upstream of the reporter gene. This result is different from those obtained for the estrogen receptor in which a similar derivative was not functional in yeast. This suggests that the well documented conservation of structure and function between steroid receptors may not extend to the transactivation domains. Our results also suggest that the mechanism by which receptors are sequestered in an inactive, non-DNA binding state in the absence of ligand may be functionally conserved in yeast. In support of this we show evidence that the expressed receptor is associated with the yeast molecular weight 90,000 heat shock protein as seen in mammalian cells.
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PMID:Ligand-specific transactivation of gene expression by a derivative of the human glucocorticoid receptor expressed in yeast. 220 60

The expression of a cyc::cat [cytochrome c/chloramphenicol acetyltransferase (CAT)] chimeric gene was stimulated 100-fold by the inclusion of a cyc intron in the 5'-untranslated region. In contrast, a single intron in the 3'-untranslated region was at best only slightly stimulatory, and surprisingly, inhibited expression of cat when an intron was also included in the 5'-untranslated region. This inhibition was independent of the identity of the downstream intron, occurring when either the simian virus 40 (SV40) small t intron or a cyc intron was located downstream from the cat coding region. Analysis of CAT mRNA levels, using a riboprobe spanning the 5' end of the CAT message, revealed that the stimulatory effect of a 5'-noncoding region intron were manifest at both the protein and RNA levels, whereas the inhibitory effects of 3'-noncoding region introns were detectable only at the protein level. The effects of intron position on chimeric gene expression were observed in both primate and rodent cell lines and also when the beta-galactosidase coding region was substituted for that of cat. Therefore, the common placement of an intron in the 3'-noncoding region is not the most beneficial to the expression of cyc chimeric genes. The position of introns within a transcriptional unit is a major factor to be considered when optimizing the efficiency of animal cell expression vectors.
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PMID:Introns in the 3'-untranslated region can inhibit chimeric CAT and beta-galactosidase gene expression. 251 22

The COX6 gene encodes subunit VI of cytochrome c oxidase. Previously, this gene and its mRNAs were characterized, and its expression has been shown to be subject to glucose repression/derepression. In this study we have examined the effects of heme and the HAP1 (CYP1) and HAP2 genes on the expression of COX6. By quantitating COX6 RNA levels and assaying beta-galactosidase activity in yeast cells carrying COX6-lacZ fusion genes, we have found that COX6 is regulated positively by heme and HAP2, but is unaffected by HAP1. Through 5' deletion analysis we have also found that the effects of heme and HAP2 on COX6 are mediated by sequences between 135 and 590 base pairs upstream of its initiation codon. These findings identify COX6 as the fourth respiratory protein gene that is known to be regulated positively by heme and HAP2. The other three, CYC1, COX4, and COX5a, encode iso-1-cytochrome c, cytochrome c oxidase subunit IV, and an isolog, Va, of cytochrome c oxidase subunit V, respectively. Thus, it appears that the biogenesis of two interacting proteins, cytochrome c and cytochrome c oxidase, in the mitochondrial respiratory chain, are under the control of common factors.
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PMID:Transcription of yeast COX6, the gene for cytochrome c oxidase subunit VI, is dependent on heme and on the HAP2 gene. 254 Jan 69

A library of rabbit poxvirus DNA fragments contained in the expression cloning vector lambda gt11 was screened with monoclonal antibodies that react specifically against a 14-kilodalton envelope protein of vaccinia virus and rabbit poxvirus. The 14-kilodalton protein appears to play an important role in virus penetration at the level of cell fusion; it also elicits neutralizing antibodies, and it forms covalently linked trimers on the surface of virions and in infected cells (Rodriguez et al., J. Virol. 56:482-488, 1985; Rodriguez et al., J. Virol. 61:395-404, 1987). Two recombinant bacteriophages expressing beta-galactosidase fusion proteins were isolated. Restriction enzyme analysis and hybridization studies mapped the 14-kilodalton encoding sequences in the middle of vaccinia virus HindIII A DNA fragment. Nucleotide sequence analysis revealed an open reading frame (ATG) preceded by a characteristic TAA sequence of late genes. The sequence spans 330 nucleotides and codes for a protein with a molecular weight of 12,500 and an isoelectric point of 6.3. There are two small hydrophobic regions, one at the C terminus (11 amino acids) and the other at the N terminus (5 amino acids). The protein contains two cysteines for oligomer formation and one glycosylation site. Inspection of the deduced amino acid sequence of the 14-kilodalton protein revealed consensus sites with the hemagglutinin precursor of influenza A virus and with adenylate kinase and cytochrome c of various species.
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PMID:Mapping and nucleotide sequence of the vaccinia virus gene that encodes a 14-kilodalton fusion protein. 282 62

Transcription of the yeast C upsilon C1 gene (iso-1-cytochrome c) is regulated in part by the upstream activation site UAS2. Activity of UAS2 requires both the HAP2 and HAP3 activators, which bind to UAS2 in an interdependent manner. To distinguish whether these factors bound to UAS2 cooperatively or formed a complex in the absence of DNA, HAP2 and HAP3 were tagged by gene fusion to LexA and beta-galactosidase, respectively, and purified through four chromatographic steps. The copurification of LexA-HAP2, HAP3 beta-galactosidase, and UAS2 binding activity shows that HAP2 and HAP3 associate in the absence of DNA to form a multisubunit activation complex.
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PMID:Yeast HAP2 and HAP3: transcriptional activators in a heteromeric complex. 283 51

In order to study the regulation of expression of the iso2-cytochrome c gene, we have constructed a fused gene between the 5'flanking region of the gene coding for the yeast iso2-cytochrome c and the coding region of the E. coli beta-galactosidase lacZ gene. When introduced in yeast cells this hybrid gene is expressed and regulated like the production of iso2-cytochrome c: it is under the control of the general catabolic repression and of the unlinked trans-acting CYP1 gene whose CYP1-18 allele causes an overproduction of iso2-cytochrome c. The expression of hybrid genes whose upstream region has been progressively shortened or altered by internal deletions was studied either in wild-type CYP1+ cells or in cells carrying the CYP1-18 allele grown either on glucose or on glycerol. It appears that the expression and the regulation of the iso2-cytochrome c gene is controlled by an upstream regulatory site composed of a positive and a negative element. This site is the target of regulation by the CYP1 gene product and, directly or through this gene, of the control by the general catabolic repression.
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PMID:Localization of the upstream regulatory sites of yeast iso2-cytochrome c gene. 298 43

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