Gene/Protein Disease Symptom Drug Enzyme Compound
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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 devised a screen for genes from the yeast Saccharomyces cerevisiae whose expression is affected by cell type or by the mating pheromones. From this screen we identified a gene, FUS1, whose pattern of expression revealed interesting regulatory strategies and whose product was required for efficient cell fusion during mating. Transcription of FUS1 occurred only in a and alpha cells, not in a/alpha cells, where it was repressed by a1 X alpha 2, a regulatory activity present uniquely in a/alpha cells. Transcription of FUS1 showed an absolute requirement for the products of five STE genes, STE4, STE5, STE7, STE11, and STE12. Since the activators STE4, STE5, and STE12 are themselves repressed by a1 X alpha 2, the failure to express FUS1 in a/alpha cells is probably the result of a cascade of regulatory activities; repression of the activators by a1 X alpha 2 in turn precludes transcription of FUS1. In addition to regulation of FUS1 by cell type, transcription from the locus increased 10-fold or more when a or alpha cells were exposed to the opposing mating pheromone. To investigate the function of the Fus1 protein, we created fus1 null mutants. In fus1 X fus1 matings, the cells of a mating pair adhered tightly and appeared to form zygotes. However, the zygotes were abnormal. Within the conjugation bridge the contained a partition that prevented nuclear fusion and mixing of organelles. The predicted sequence of the Fus1 protein (deduced from the FUS1 DNA sequence) and subcellular fractionation studies with Fus1-beta-galactosidase hybrid proteins suggest that Fus1 is a membrane or secreted protein. Thus, Fus1 may be located at a position within the cell where it is poised to catalyze cell wall or plasma membrane fusion.
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PMID:Identification and regulation of a gene required for cell fusion during mating of the yeast Saccharomyces cerevisiae. 331 2

Candida albicans genes involved in mating have been identified previously by homology to Saccharomyces cerevisiae mating pathway components. The C. albicans genome encodes CaSte2p, a homolog of the S. cerevisiae alpha-mating pheromone receptor Ste2p, and two potential pheromones, alpha-F13 (GFRLTNFGYFEPG) and alpha-F14 (GFRLTNFGYFEPGK). The response of several C. albicans strains to the synthesized peptides was determined. The alpha-F13 was degraded by a C. albicans MTLa strain but not by S. cerevisiae MATa cells. The CaSTE2 gene was cloned and expressed in a ste2-deleted strain of S. cerevisiae. Growth arrest and beta-galactosidase activity induced from a FUS1-lacZ reporter construct increased in a dose-dependent manner upon exposure of transgenic S. cerevisiae to alpha-F13. Mating between the strain expressing CaSTE2 and an opposite mating type was mediated by alpha-F13 and not by the S. cerevisiae alpha-factor. The results indicated that CaSte2p effectively coupled to the S. cerevisiae signal transduction pathway. Functional expression of CaSte2p in S. cerevisiae provides a well-defined system for studying the biochemistry and molecular biology of the C. albicans pheromone and its receptor.
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PMID:Functional expression of the Candida albicans alpha-factor receptor in Saccharomyces cerevisiae. 1574 52

G-protein-coupled receptors (GPCR) are prime targets for therapies with small molecule-antagonists. Since yeast have GPCR triggered signaling pathways analogous to those present in mammalian cells, it is possible to express human receptors in yeast coupled to the pheromone responsive signaling cascade in variants that contain mammalian-yeast Galpha subunit chimeras. CXCR4 and CXCR4(N119S), a constitutively active mutant were expressed in yeast coupled to pheromone responsive reporter genes, HIS3, lacZ, or FUI, and tested for signaling activity. Compounds derived from T140, an inverse agonist for CXCR4, were screened for activity using yeast cells expressing CXCR4(N119S) and containing a FUS1-lacZ reporter gene. Levels of inhibition of beta-galactosidase activities triggered by constitutive activation of the pheromone response pathway that were obtained in the presence of the T140 derived compounds correlated with affinities measured in radioligand binding inhibition experiments. The yeast signaling system may provide an effective approach for screening chemokine receptor antagonists.
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PMID:Expression of CXCR4, a G-protein-coupled receptor for CXCL12 in yeast identification of new-generation inverse agonists. 1944 37