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)

In Saccharomyces cerevisiae cells harboring a GAL1 promoter-linked beta-galactosidase gene, the simultaneous expression of Escherichia coli DNA topoisomerase I and inactivation of yeast DNA topoisomerases I and II reduces the cellular level of beta-galactosidase to an undetectable level. Analysis of intracellular mRNA level and the density of RNA polymerase along DNA indicates that this reduction is due to the suppression of transcription and that both plasmid-borne and chromosomally located genes are affected. These results are interpreted in terms of inhibition of transcription in vivo due to positive supercoiling of the DNA template: preferential removal of transcription-generated negative supercoils by E. coli DNA topoisomerase I in the absence of both yeast DNA topoisomerases I and II results in the accumulation of positive supercoils in intracellular DNA. In normal prokaryotic or eukaryotic cells, accumulation of positive supercoils is presumably avoided through the balanced actions of DNA topoisomerases.
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PMID:Positive supercoiling of DNA greatly diminishes mRNA synthesis in yeast. 133 10

In a previous paper we have studied the expression of beta-galactosidase from Escherichia coli, driven from the inducible GAL1-10/CYC1 hybrid promoter, in batch cultures of budding Saccharomyces cerevisiae and have described operating conditions for maximal productivity. In this paper we show that the plasmid instability in continuous cultures can be overcome by utilizing appropriate selection markers and a high copy number vector. The maximal level of expression is influenced by the dilution rate. Moreover, enzyme accumulation appears to depend also upon the degree of oxygenation. A possible explanation of these modulations is discussed, taking into account the interactions of the UAS-GAL and TATA-CYC1 elements.
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PMID:Heterologous gene expression in continuous cultures of budding yeast. 136 26

We report the effects of a strong overexpression of the GAL4 activator protein on the expression of UASGAL regulated genes, obtained by cloning the GAL4 gene and the GAL1-10 upstream activating sequence (UASGAL)-lacZ fusion in the same high copy number plasmid. Comparable amounts of active enzyme were obtained by host strains usually producing different levels of cloned proteins due to their different genetic background. The transformed cells constitutively produced low levels of beta-galactosidase (1-2% of total proteins) both in glucose and in raffinose minimal media. Nevertheless, expression was still inducible and a tenfold induction could be rapidly obtained by the addition of 0.5% (w/v) galactose to the culture, even when glucose was still present in the medium.
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PMID:Enhanced expression of heterologous proteins by the use of a superinducible vector in budding yeast. 136 69

The trans-activator protein Tax of human T-cell leukemia virus type I (HTLV-I) stimulates transcription of the viral genome from the long terminal repeat. With a reporter HIS4TATA::lacZ fusion gene, the transcriptional activity of the Tax-responsive element in the long terminal repeat was tested in Saccharomyces cerevisiae. We found that fragments containing the 21-bp repeat of the HTLV-I enhancer stimulate synthesis of beta-galactosidase activity 15- to 20-fold. To test the ability of the Tax protein to trans activate the HTLV-I enhancer in yeast cells, the pX region of HTLV-I, encoding the Tax protein, was cloned under the control of the yeast GAL1 promoter. The expressed Tax protein is localized in the nucleus and associated with the yeast nuclear matrix fraction. In yeast cells that contained the integrated tax gene, two- to sixfold stimulation of expression from the HTLV-I enhancer was detected at the early stages of tax induction. This in vivo reconstitution system provides a new approach for examining the host factor(s), the signal transduction mechanism(s), and the role of nuclear architecture involved in Tax-mediated trans activation.
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PMID:Expression and characterization of the trans-activating protein Tax of human T-cell leukemia virus type I in Saccharomyces cerevisiae. 143 17

We have previously shown that nucleosome loss, obtained by repressing histone H4 mRNA synthesis, activates otherwise inactive PHO5, GAL1, and CYC1 gene promoters (fused to the bacterial beta-galactosidase [lacZ] reporter gene) to moderate levels of activity (approximately 2 to 15% of fully induced levels). We now report that nucleosome loss activates the expression of two additional promoters that are normally induced by independent mechanisms: CUP1 (induced by heavy-metal toxicity) and HIS3 (induced by amino acid starvation). Surprisingly, the level of CUP1-lacZ and HIS3-lacZ activation by nucleosome loss approximates fully induced levels of transcription. These CUP1 and HIS3 promoter activities are increased similarly from either episomal or genomic constructs. Our results emphasize the universality of the mechanism by which nucleosome loss activates yeast promoters. Moreover, a comparison of absolute levels of activation for different promoters suggests that activation by nucleosome loss results in a relatively constant level of activation, while levels obtained by normal induction vary considerably. These data argue that nucleosome loss may play a uniquely dominant role in the regulation of certain promoters.
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PMID:Nucleosome loss activates CUP1 and HIS3 promoters to fully induced levels in the yeast Saccharomyces cerevisiae. 154 16

The lacS gene from the extremely thermoacidophilic archaebacterium Sulfolobus solfataricus encodes an enzyme with beta-galactosidase activity that, like other enzymes from this organism, is exceptionally thermophilic (optimal activity above 90 degrees C), thermostable, and resistant to common protein denaturants and proteases. Expression of the gene in mesophilic hosts is needed to uncover the molecular nature of these features. We have obtained expression of beta-galactosidase in Saccharomyces cerevisiae under the control of the galactose-inducible upstream activating sequence of the yeast genes GAL1 and GAL10. The expressed enzyme is identical in molecular mass, thermostability, and thermophilicity to the native enzyme, showing that these features are intrinsic to the primary structure of the enzyme. We also present a new promoter for the expression of thermostable proteins in S. cerevisiae. This promoter contains a sequence isolated from the nematode Caenorhabditis elegans that works as a strong, heat-inducible upstream activating sequence in S. cerevisiae. Transcription of the lacS gene under the control of this sequence is rapidly and efficiently induced by heat shock. The availability of a plate assay for monitoring beta-galactosidase activity in S. cerevisiae may allow screening for mutants affecting the efficiency and activity of the enzyme.
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PMID:Expression of the thermostable beta-galactosidase gene from the archaebacterium Sulfolobus solfataricus in Saccharomyces cerevisiae and characterization of a new inducible promoter for heterologous expression. 173 21

We have analyzed a GAL1 mutant (gal1-r strain) of the yeast Kluyveromyces lactis which lacks the induction of beta-galactosidase and the enzymes of the Leloir pathway in the presence of galactose. The data show that the K. lactis GAL1 gene product has, in addition to galactokinase activity, a function required for induction of the lactose system. This regulatory function is not dependent on galactokinase activity, as it is still present in a galactokinase-negative mutant (gal1-209). Complementation studies in Saccharomyces cervisiae show that K. lactis GAL1 and gal1-209, but not gal1-r, complement the gal3 mutation. We conclude that the regulatory function of GAL1 in K. lactis soon after induction is similar to the function of GAL3 in S. cerevisiae.
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PMID:Galactokinase encoded by GAL1 is a bifunctional protein required for induction of the GAL genes in Kluyveromyces lactis and is able to suppress the gal3 phenotype in Saccharomyces cerevisiae. 192 58

Saccharomyces cerevisiae chromosomes end with the sequence C2-3A(CA)1-4, commonly abbreviated as C1-3A. These sequences can function as upstream activators of transcription (UAS's) when placed in front of a CYC1-lacZ fusion gene. When C1-3A sequences are placed between the GAL1,10 UAS and the CYC1-lacZ fusion, the C1-3A UAS still functions and the amount of beta-galactosidase produced in cells grown on glucose is as much or more than that for cells grown on either glycerol medium, or cells grown on glucose medium containing a plasmid with just the C1-3A UAS. These data indicate that the UAS is immune from glucose repression from the upstream GAL1,10 UAS. Because C1-3A sequences are bound in vitro by the transcription factor RAP1, the UAS activity of yeast telomere sequences was compared with that of a similar UAS from the tightly regulated ribosomal protein gene RP39A, which also contains a RAP1 binding site. While transcription from the ribosomal protein gene UAS was responsive to cell density, the amount of transcription from the C1-3A UAS was nearly the same at all cell densities tested. These data show that the transcriptional activation by C1-3A sequences is not regulated by cell density.
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PMID:Properties of the transcriptional enhancer in Saccharomyces cerevisiae telomeres. 211 Jun 55

The product of the START gene CDC25, an upstream element of the RAS/adenylyl cyclase pathway in Saccharomyces cerevisiae, was identified using specific antibodies raised against a chimeric beta-galactosidase/CDC25 protein. The CDC25 protein is poorly expressed and can be detected only when the CDC25 gene is overexpressed under the control of the galactose-inducible GAL1-10 strong promoter elements. It has a molecular weight of 180,000, is not glycosylated and is strongly associated with the particulate fraction. After deletion of residues 1255-1550 the protein is found in the soluble fraction.
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PMID:Overexpression of the CDC25 gene, an upstream element of the RAS/adenylyl cyclase pathway in Saccharomyces cerevisiae, allows immunological identification and characterization of its gene product. 212 Nov 45

To determine whether the 70-kilodalton heat shock proteins of Saccharomyces cerevisiae play a role in regulating their own synthesis, we studied the effect of overexpressing the SSA1 protein on the activity of the SSA1 5'-regulatory region. The constitutive level of Ssa1p was increased by fusing the SSA1 structural gene to the GAL1 promoter. A reporter vector consisting of an SSA1-lacZ translational fusion was used to assess SSA1 promoter activity. In a strain producing approximately 10-fold the normal heat shock level of Ssa1p, induction of beta-galactosidase activity by heat shock was almost entirely blocked. Expression of a transcriptional fusion vector in which the CYC1 upstream activating sequence of a CYC1-lacZ chimera was replaced by a sequence containing a heat shock upstream activating sequence (heat shock element 2) from the 5'-regulatory region of SSA1 was inhibited by excess Ssa1p. The repression of an SSA1 upstream activating sequence by the SSA1 protein indicates that SSA1 self-regulation is at least partially mediated at the transcriptional level. The expression of another transcriptional fusion vector, containing heat shock element 2 and a lesser amount of flanking sequence, is not inhibited when Ssa1p is overexpressed. This suggests the existence of an element, proximal to or overlapping heat shock element 2, that confers sensitivity to the SSA1 protein.
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PMID:Self-regulation of 70-kilodalton heat shock proteins in Saccharomyces cerevisiae. 218 Dec 81

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