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Query: UNIPROT:P06889 (Mol)
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Glucose produces multiple effects in Saccharomyces cerevisiae, as it controls the expression of many genes and the activity of various enzymes. However, the elements involved in glucose signaling are not well characterized. In this work the capacity of galactose to bring about the same effects than glucose has been assessed. Galactose mimics glucose only partially; it is suggested that it does not interact with a "sensor" in the plasma membrane and that it produces a weaker intracellular signal than glucose. To examine whether trehalose-6P synthase (Tps1) is required to transduce the glucose signal, we have constructed a tps1 hxk2/tps1 HXK2 strain which, at difference of a tps1 strain, grows on glucose, and, at difference of a tps1 hxk2 strain, still possess the Hxk2 protein, possibly involved in glucose repression. From the response of this strain to glucose, we conclude that Tps1 does not play a prominent role in glucose signaling.
Mol Cell Biol Res Commun 1999 Apr
PMID:Glucose signaling in yeast is partially mimicked by galactose and does not require the Tps1 protein. 1032 78

Phosphorylation of the yeast transcription factor GAL4 at S699 is required for efficient galactose-inducible transcription. We demonstrate that this site is a substrate for the RNA polymerase holoenzyme-associated CDK SRB10. S699 phosphorylation requires SRB10 in vivo, and this site is phosphorylated by purified SRB10/ SRB11 CDK/cyclin in vitro. RNA Pol II holoenzymes purified from WT yeast phosphorylate GAL4 at sites observed in vivo whereas holoenzymes from srb10 yeast are incapable of phosphorylating GAL4 at S699. Mutations at GAL4 S699 and srb10 are epistatic for GAL induction, demonstrating that SRB10 regulates GAL4 activity through this phosphorylation in vivo. These results demonstrate a function for the SRB10/ CDK8 holoenzyme-associated CDK that involves regulation of transactivators by phosphorylation during transcriptional activation.
Mol Cell 1999 May
PMID:GAL4 is regulated by the RNA polymerase II holoenzyme-associated cyclin-dependent protein kinase SRB10/CDK8. 1036 Jan 83

We have studied the capacity of the prepro amino extension of vacuolar protease leucine aminopeptidase I (API) to target the fluorescent reporter protein GFP to the vacuole of yeast. The preproGFP chimera constructed by extending the amino end of GFP with the prepro-part of API is rapidly degraded in both wild-type WCG cells and WCG 11/21a cells deficient in the proteasome. In contrast, the chimera expressed in WCG-PP cells deficient in both proteasome activity and vacuolar proteinase A accumulates in the vacuole, where it remains stable. Replacement of Gly by Ile-7, a substitution that prevents folding of the pre-part into an amphipathic helix and inhibits the targeting of the API precursor to the vacuole, inhibits the targeting of preproGFP to the vacuole. The separated pre- and pro-parts of the API precursor do not target GFP to the vacuole. Targeting of preproGFP to the vacuole is independent of its levels of expression, as the fluorescent protein localizes to the vacuole in cells expressing the protein under the control of both the GAL 1/10 or the API promoter. The preproGFP expressed under both promoters is recovered as monomers from cytosolic cell extracts. PreproGFP expressed under the API promoter is packed into cytoplasmic bodies that penetrate into the vacuolar lumen to release the protein. Altogether our results show that the prepro-part of the API precursor is necessary and sufficient to target the green fluorescent reporter protein to the vacuole.
Mol Microbiol 1999 Jul
PMID:The prepropeptide of vacuolar aminopeptidase I is necessary and sufficient to target the fluorescent reporter protein GFP to the vacuole of yeast by the Ccvt pathway. 1041 23

Encystation of Entamoeba invadens parasites is prevented by the presence of free galactose or N-acetylglucosamine in the encystation medium. Galactose prevents the formation of amoeba cellular aggregates which develop during the early phase of encystation, suggesting the presence of functional cell surface galactose-binding molecules, whereas N-acetylglucosamine allows aggregation to occur and prevents cyst formation at a later point. While studying sugar inhibition of amoeba encystation, it was found that high efficiency encystation required the inclusion in encystation medium of precise amounts of polyvalent galactose-terminated molecules, and these molecules could be supplied by serum or by defined glycoconjugates, including mucin. Addition of free galactose to encystation medium prevented the accumulation of three transcripts which are normally upregulated during encystation, and N-acetylglucosamine prevented accumulation of one of the transcripts. These results suggest the presence of distinct sugar-sensitive pathways that regulate differentiation of the amoeba trophozoite into infectious cysts.
Mol Biochem Parasitol 1999 Jul 30
PMID:Regulation of Entamoeba invadens encystation and gene expression with galactose and N-acetylglucosamine. 1047 77

The Gal3, Gal80, and Gal4 proteins of Saccharomyces cerevisiae comprise a signal transducer that governs the galactose-inducible Gal4p-mediated transcription activation of GAL regulon genes. In the absence of galactose, Gal80p binds to Gal4p and prohibits Gal4p from activating transcription, whereas in the presence of galactose, Gal3p binds to Gal80p and relieves its inhibition of Gal4p. We have found that immunoprecipitation of full-length Gal4p from yeast extracts coprecipitates less Gal80p in the presence than in the absence of Gal3p, galactose, and ATP. We have also found that retention of Gal80p by GSTG4AD (amino acids [aa] 768 to 881) is markedly reduced in the presence compared to the absence of Gal3p, galactose, and ATP. Consistent with these in vitro results, an in vivo two-hybrid genetic interaction between Gal80p and Gal4p (aa 768 to 881) was shown to be weaker in the presence than in the absence of Gal3p and galactose. These compiled results indicate that the binding of Gal3p to Gal80p results in destabilization of a Gal80p-Gal4p complex. The destabilization was markedly higher for complexes consisting of G4AD (aa 768 to 881) than for full-length Gal4p, suggesting that Gal80p relocated to a second site on full-length Gal4p. Congruent with the idea of a second site, we discovered a two-hybrid genetic interaction involving Gal80p and the region of Gal4p encompassing aa 225 to 797, a region of Gal4p linearly remote from the previously recognized Gal80p binding peptide within Gal4p aa 768 to 881.
Mol Cell Biol 1999 Nov
PMID:The Gal3p-Gal80p-Gal4p transcription switch of yeast: Gal3p destabilizes the Gal80p-Gal4p complex in response to galactose and ATP. 1052 71

Transgenic animal models harboring chromosomally integrated shuttle vectors with bacterial reporter genes are now widely used to measure in vivo mutant frequencies. The lacZ-plasmid transgenic mouse model has a unique sensitivity to large rearrangements compared to systems using bacteriophage lambda vectors, which mainly detect point mutations and small deletions or insertions. In this study, the background mutant frequencies and spectra in the lacZ-plasmid transgenic mouse model were investigated. While the majority of the recovered lacZ-mutants appeared to have originated in the mouse, a subset of mutants are likely to represent artifacts, and occur with a frequency of about 1.3 x 10(-5), irrespective of the total mutant frequency. Galactose-insensitive host cells, due to galE back mutations or galK or galT forward mutations, grow through the positive selection system and cause a small subset of the background. When using HindIII to excise the plasmids from genomic DNA, the largest contribution to the background, (1.1 +/- 0.3) x 10(-5), appeared to be caused by star activity, i.e., cleavage at nucleotide sequences other than the HindIII restriction enzyme recognition sequence, during the recovery procedure. Finally, a total of 10 polymorphic sites in different copies of the lacZ-plasmid cluster in founder line 60 were discovered.
Environ Mol Mutagen 1999
PMID:Background mutations and polymorphisms in lacZ-plasmid transgenic mice. 1052 34

The coordinate expression of anthocyanin biosynthetic genes in leaves and stems of a red forma of Perilla frutescens is presumably controlled by regulatory gene(s). A Myc-like gene (Myc-rp) was isolated from a cDNA library prepared from the leaves of red P. frutescens, and its deduced amino acid sequence shows 64% identity with that of delila from snapdragon. The Myc-rp gene was expressed in leaves and roots of both red and green P. frutescens equally. Comparison of deduced amino acid sequence of Myc-rp with that of Myc-gp, the second allele isolated from a green forma of P. frutescens, indicates that the 132nd amino acid, alanine, existing in MYC-RP was changed to serine in MYC-GP. The heterologous expression of these two alleles of Myc-like gene in tobacco and tomato resulted in an increase of the anthocyanin contents in flowers of tobacco and vegetative tissues and flowers of tomato. However, the flowers of transgenic tobacco expressing the fragment with a partial deletion (encoding 1-115 amino acids deleted) of Myc(-gp gave no change in anthocyanin accumulation, but some morphological changes of the flower were observed. In yeast, the MYC-RP/GP and Delila protein exhibited transactivation activity on the GAL-1 promoter from yeast and the promoter of dihydroflavonol 4-reductase (DFR) gene from P. frutescens. A transactivation domain of MYC-RP/GP and Delila could be located in the region between the 193rd and the 420th amino acid of MYC-RP/GP proteins. Our data indicate that this Myc-like gene presumably functions in the regulation of anthocyanin biosynthesis similarly in different tissues of dicot plants.
Plant Mol Biol 1999 Sep
PMID:A constitutively expressed Myc-like gene involved in anthocyanin biosynthesis from Perilla frutescens: molecular characterization, heterologous expression in transgenic plants and transactivation in yeast cells. 1056 Oct 66

Cyclin C and the cyclin C-dependent protein kinase are associated with the RNA polymerase II Mediator complex, which regulates initiation of transcription in response to signals from activators and repressors bound to upstream promoter elements. Disruption of the corresponding genes, SRB11 and SRB10, in budding yeast causes a reduction in expression of the GAL genes, which is particularly pronounced in a mig1 snf1 background. We have screened two yeast genomic libraries for genes that can suppress this phenotype when overexpressed. Seven suppressor genes were identified, GIS1-7. GIS1 encodes one of two related zinc-finger proteins, which also share two other highly conserved domains present in several eukaryotic transcription factors. GIS2 encodes a homologue of the mammalian CNBP and fission yeast Byr3 proteins. GIS3 and GIS4 predict proteins with no obvious similarities to any known proteins. GIS5-7 are identical to the previously described genes PDE2, SGE1 and TUB3, respectively. None of the suppressor genes seem to be involved in Mediator function. Instead, we find that the GIS1, GIS2 and GIS4 genes interact with the CDC25 gene, indicating a possible involvement of these genes in the RAS/cAMP signaling pathway.
Mol Gen Genet 1999 Dec
PMID:Yeast genes GIS1-4: multicopy suppressors of the Gal- phenotype of snf1 mig1 srb8/10/11 cells. 1062 41

Mucus-bacterial interactions in the gastrointestinal tract and their impact on subsequent enteric infections are poorly delineated. In the present study, we have examined the binding of Salmonella typhimurium to rat intestinal mucus and characterized a mucus protein (Mucus-Rs) which specifically binds to S. typhimurium. Both virulent (1402/84), and avirulent (SF 1835) S. typhimurium were observed to bind to crude mucus, however, the virulent strain showed 6 fold more binding as compared to avirulent strain. Fractionation of crude mucus on sepharose CL-6B resolved it into three major peaks. Maximal bacterial binding was observed with a high mol. wt. glycoprotein corresponding to neutral mucin. SDS-PAGE of purified protein (termed Mucus-Rs) under non reducing conditions showed it to be a homogenous glycoprotein (mol. wt. 250 kDa), while under reducing conditions, three bands corresponding to mol. wt. of 118,75 and 60 kDa were observed. Pretreatment of Mucus-Rs with pronase, trypsin and sodium metaperiodate markedly inhibited bacterial binding. GLC analysis of Mucus-Rs showed it to contain Mannose, Glucose, Galactose, Glucosamine, Galactosamine and Sialic acid as main sugars. Competitive binding in the presence of various sugars and lectins indicated the involvement of mannose in the mucus-bacterial interactions. The Mucus-Rs binding was highly specific for S. typhimurium; no significant binding was seen with E. coli and V. cholerae. Thus, we conclude that S. typhimurium specifically binds to a 250 kDa neutral mucin of intestinal tract. This binding appears to occur via specific adhesin-receptor interactions involving bacterial pili and mannose of neutral mucin.
Mol Cell Biochem 2000 Jan
PMID:Intestinal mucins: the binding sites for Salmonella typhimurium. 1071 31

Previous studies from this laboratory have shown that the heavy metal cadmium (Cd) mimics the effects of estradiol in estrogen-responsive breast cancer cell lines. To understand the mechanism by which cadmium activates estrogen receptor-alpha (ER-alpha), the ability of cadmium to bind to and activate wild-type and various mutants of ER-alpha was examined. When tested in transient cotransfection assays in COS-1 cells, cadmium concentrations as low as 10(-11) M activated ER-alpha. Scatchard analysis employing either purified human recombinant ER-alpha or extracts from ER-containing MCF-7 cells demonstrated that l09Cd binds to the ER with an equilibrium dissociation constant of approximately 4 to 5 x 10(-10) M. Cadmium also blocks the binding of estradiol to ER-alpha in a noncompetitive manner (K(i) = 2.96 x 10(-10) M), suggesting that the heavy metal interacts with the hormone-binding domain of the receptor. To study the role of the hormone-binding domain in cadmium activation, COS-1 cells were transiently cotransfected with GAL-ER, a chimeric receptor containing the DNA-binding domain of the transcription factor GAL4 and the hormone-binding domain of ER-alpha, and a GAL4-responsive reporter gene. Treatment of the transfected cells with either 10(-6) M cadmium or 10(-9) M estradiol resulted in a 4-fold increase in reporter gene activity. The effect of cadmium on the chimeric receptor was blocked by the antiestrogen, ICI-164,384, suggesting that cadmium activates ER-alpha through an interaction with the hormone-binding domain of the receptor. Transfection and binding assays with ER-alpha mutants identified C381, C447, E523, H524, and D538 as possible interaction sites of cadmium with the hormone-binding domain of ER-alpha.
Mol Endocrinol 2000 Apr
PMID:Activation of estrogen receptor-alpha by the heavy metal cadmium. 1077 Apr 91


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