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)

To study the function of KyoT2 in vivo, two-hybrid yeast, purification of KyoT2 protein, preparation of antibody and GST-pulldown methods were used in the experiments. 42 clones were obtained after 5 x 10(6) clones were screened by four kinds of nutrition limitation and beta-galactosidase assay, 22 clones were obtained after restriction of positive clones. Finally, 13 genes were obtained by sequence assay. Two of these were RBP-Jk and PIAS1. After they and KyoT2 changed vectors, negative two-hybrid yeast was finished. The result was positive; Using KyoT2 protein and antibody GST-pulldown of KyoT2 and RBP-Jk, KyoT2 and PIAS1 were done, the result was also positive. Therefore, KyoT2 interacted with RBP-Jk and PIAS1.
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PMID:[Screening and detecting of proteins interaction with KyoT]. 1190 2

A second glutathione S-transferase gene (GST II) was isolated from the chromosomal DNA of the fission yeast Schizosaccharomyces pombe. The nucleotide sequence determined contains 1908 bp including an open reading frame of 230 amino acids that would encode a protein of a molecular mass of 26843.4 Da. The amino acid sequence of the putative GST II is very homologous with that of the previously isolated GST gene (GST I) located in the same chromosome III of S. pombe. The cloned GST II gene produces the functional GST in S. pombe, and it gives much higher GST in the stationary phase than in the exponential phase. Regulation of the GST II gene was studied using the GST II-lacZ fusion. The synthesis of beta-galactosidase from the fusion plasmid is greatly enhanced by the treatments with oxidative stresses such as menadione and mercuric chloride. It is also induced by o-dinitrobenzene, one of the GST substrates. NO-generating S-nitroso-N-acetylpenicillamine has a weak induction effect on the expression of GST II gene. These results indicate that the S. pombe GST II gene is involved in the oxidative stress response and detoxification. However, physiological meaning on the existence of the two similar GST genes in S. pombe remains unknown yet.
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PMID:A second stress-inducible glutathione S-transferase gene from Schizosaccharomyces pombe. 1199 10

Cyclophilin 40 (CyP40) is a tetratricopeptide repeat (TPR)-containing immunophilin and a modulator of steroid receptor function through its binding to heat shock protein 90 (Hsp90). Critical to this binding are the carboxyl-terminal MEEVD motif of Hsp90 and the TPR domain of CyP40. Two different models of the CyP40-MEEVD peptide interaction were used as the basis for a comprehensive mutational analysis of the Hsp90-interacting domain of CyP40. Using a carboxyl-terminal CyP40 construct as template, 24 amino acids from the TPR and flanking acidic and basic domains were individually mutated by site-directed mutagenesis, and the mutants were coexpressed in yeast with a carboxyl-terminal Hsp90beta construct and qualitatively assessed for binding using a beta-galactosidase filter assay. For quantitative assessment, mutants were expressed as glutathione S-transferase fusion proteins and assayed for binding to carboxyl-terminal Hsp90beta using conventional pulldown and enzyme-linked immunosorbent assay microtiter plate assays. Collectively, the models predict that the following TPR residues help define a binding groove for the MEEVD peptide: Lys-227, Asn-231, Phe-234, Ser-274, Asn-278, Lys-308, and Arg-312. Mutational analysis identified five of these residues (Lys-227, Asn-231, Asn-278, Lys-308, and Arg-312) as essential for Hsp90 binding. The other two residues (Phe-234 and Ser-274) and another three TPR domain residues not definitively associated with the binding groove (Leu-284, Lys-285, and Asp-329) are required for efficient Hsp90 binding. These data confirm the critical importance of the MEEVD binding groove in CyP40 for Hsp90 recognition and reveal that additional charged and hydrophobic residues within the CyP40 TPR domain are required for Hsp90 binding.
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PMID:A structure-based mutational analysis of cyclophilin 40 identifies key residues in the core tetratricopeptide repeat domain that mediate binding to Hsp90. 1214 16

A third gene encoding glutathione S-transferase (GSTIII) was cloned from the fission yeast Schizosaccharomyces pombe. The nucleotide sequence determined was found to contain 2110 base pairs including an open reading frame of 242 amino acids that would encode a protein of a molecular mass of 26,620 Da. The cloned GSTIII gene could be expressed in S. pombe, S. cerevisiae and Escherichia coli cells which gave 1.4-, 2.1-, and 3.0-fold higher GST activity in an assay using 1-chloro-2,4-dinitrobenzene as a substrate, respectively. The cloned GSTIII gene caused higher survivals of S. pombe cells on solid media with cadmium chloride or mercuric chloride. The GSTIII protein has 16% and 18% homologies with the GSTI and GSTII proteins, respectively. To independently monitor the regulation of the GSTIII gene, its 1168 bp upstream region and N-terminal 33 amino acid-coding region was fused into the promoterless beta-galactosidase gene of the shuttle vector YEp357. The synthesis of beta-galactosidase from the fusion plasmid pGY357 was greatly enhanced by cadmium chloride (50 microM), cupric chloride (10 microM), aluminum chloride (5 mM, 10 mM), mercuric chloride (1 microM), and zinc chloride (10 mM). However, the synthesis of beta-galactosidase from the fusion plasmid pGY357 was not affected by superoxide-generating menadione, and o-dinitrobenzene, whereas they could significantly induce the expression of the GSTI and GSTII genes of S. pombe. The overproduced Pap1 inhibited the induction of beta-galactosidase synthesis from the fusion plasmid pGY357 by cadmium chloride, which is opposite to the previously known role of Pap1 in the response to oxidative stress. Our results collectively indicate that the three GST genes of S. pombe are subjected to different regulatory mechanisms. The major role of the GSTIII protein in S. pombe may be the detoxification of various metals.
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PMID:Characterization, expression and regulation of a third gene encoding glutathione S-transferase from the fission yeast. 1215 Nov 11

The genomic DNA encoding a second glutathione S-transferase (GSTII) was previously isolated from the fission yeast Schizosaccharomyces pombe. Its expression was shown to be induced by menadione, mercuric chloride, o-dinitrobenzene, and NO-generating S-nitroso-N-acetylpenicillamine using the GSTII-lacZ fusion harboring the 910 bp upstream region from the translational initiation point. In this study, the additional fusion plasmids pGST50-590 and pGST50-6R-590 were constructed to carry the 590 bp upstream region in the vectors YEp357 and YEp367R, respectively. The synthesis of beta-galactosidase from the fusion plasmid pGST50-590 was about 3-fold higher than that from the fusion plasmid pGST50-F, indicating the presence of negatively activating sequence in the -910 to approximately -590 region. It was also enhanced by the same agents, which induced the synthesis of beta-galactosidase from the fusion plasmid pGST50-F. The synthesis of beta-galactosidase from both fusion plasmids pGST50-F and pGST50-590 was enhanced by the overexpressed Pap1 protein. The synthesis of beta-galactosidase from the two YEp367R derivatives pGST50-6R-F and pGST50-6R-590 was greatly decreased in the Pap1-negative strain TP108-3C. These results propose the Pap1-dependent regulation of the GSTII gene from the fission yeast.
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PMID:Pap1-dependent regulation of the GSTII gene from the fission yeast. 1252 8

In the yeast Saccharomyces cerevisiae, the mineral zinc is essential for growth and metabolism. Depletion of zinc from the growth medium of wild type cells results in changes in phospholipid metabolism, including an increase in phosphatidylinositol content (Iwanyshyn, W. M., Han, G.-S., and Carman, G. M. (2004) J. Biol. Chem. 279, 21976-21983). We examined the effects of zinc depletion on the regulation of the PIS1-encoded phosphatidylinositol synthase, the enzyme that catalyzes the formation of phosphatidylinositol from CDP-diacylglycerol and inositol. Phosphatidylinositol synthase activity increased when zinc was depleted from the growth medium. Analysis of a zrt1Delta zrt2Delta mutant defective in plasma membrane zinc transport indicated that the cytoplasmic levels of zinc were responsible for the regulation of phosphatidylinositol synthase. PIS1 mRNA, its encoded protein Pis1p, and the beta-galactosidase activity driven by the P(PIS1)-lacZ reporter gene were elevated in zinc-depleted cells. This indicated that the increase in phosphatidylinositol synthase activity was the result of a transcriptional mechanism. The zinc-mediated induction of the P(PIS1)-lacZ reporter gene, Pis1p, and phosphatidylinositol synthase activity was lost in zap1Delta mutant cells. These data indicated that the regulation of PIS1 gene expression by zinc depletion was mediated by the zinc-regulated transcription factor Zap1p. Direct interaction between glutathione S-transferase (GST)-Zap1p(687-880) and a putative upstream activating sequence (UAS) zinc-responsive element in the PIS1 promoter was demonstrated by electrophoretic mobility shift assays. Mutations in the UAS zinc-responsive element in the PIS1 promoter abolished the GST-Zap1p(687-880)-DNA interaction in vitro and abolished the zinc-mediated regulation of the PIS1 gene in vivo. This work advances understanding of phospholipid synthesis regulation by zinc and the transcription control of the PIS1 gene.
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PMID:Regulation of the PIS1-encoded phosphatidylinositol synthase in Saccharomyces cerevisiae by zinc. 1598 62

Mouse Pem, a homeobox gene, encodes a protein consisting of 210 amino acid residues. To study the function of mouse Pem protein, we used the yeast two-hybrid system to screen the library of 7-day mouse embryo with full-length mouse Pem cDNA. Fifty-two colonies were obtained after 1.57 x 10(8) colonies were screened by nutrition limitation and beta-galactosidase assay. Seven individual insert fragments were obtained from the library, and three of them were identified, one of which was confirmed to be the cell division cycle 37 (Cdc37) homolog gene by sequencing. The interaction between mouse Pem and Cdc37 homolog was then confirmed by glutathione S-transferase pull-down assay, and the possible interaction model was suggested.
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PMID:Interaction of mouse Pem protein and cell division cycle 37 homolog. 1627 Jan 59

The nuclear matrix protein Msx2-interacting nuclear target protein (MINT) is a transcription factor that regulates the expression of key transcriptional effectors in diverse signaling pathways. To further understand the function and mechanism of the MINT-mediated transcription regulation, the yeast two-hybrid system was employed to screen proteins that interact with the C-terminal fragment of MINT. From a cDNA library of human lymph nodes, a cDNA encoding the ubiquitin-conjugating enzyme UbcH8 was identified. Using different truncated versions of MINT, we show that the C-terminal Spen paralog and ortholog C-terminal domain (SPOC) domain, which has been demonstrated to mediate interactions between MINT and a panel of other molecules, might be responsible for interaction between MINT and UbcH8 in yeast, as confirmed by the beta-galactosidase assay. The interaction between MINT and UbcH8 in mammalian cells was further proved by a series of biochemical assays including the mammalian two-hybrid assay, GST pull-down assay, and co-immunoprecipitation assay. Using a reporter system, we found that MINT-mediated transcription suppression was sensitive to MG132, an inhibitor of the proteosome system. These results suggest a novel mechanism of MINT-mediated transcription regulation, and might be helpful for understanding functions of MINT.
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PMID:The Spen homolog Msx2-interacting nuclear target protein interacts with the E2 ubiquitin-conjugating enzyme UbcH8. 1658 36

Mouse fibroblast senescence in vitro is an important model for the study of aging at cellular level. However, common laboratory mouse strains may have lost some important allele variations related to aging processes. In this study, growth in vitro of tail skin fibroblasts (TSFs) derived from a wild-derived stock, Pohnpei (Pohn) mice, differed from growth of control C57BL/6 J (B6) TSFs. Pohn TSFs exhibited higher proliferative ability, fewer apoptotic cells, decreased expression of Cip1, smaller surface areas, fewer cells positive for senescence associated-beta-galactosidase (SA-beta-gal) and greater resistance to H(2)O(2)-induced SA-beta-gal staining and Cip1 expression. These data suggest that TSFs from Pohn mice resist cellular senescence-like changes. Using large clone ratio (LCR) as the phenotype, a quantitative trait locus (QTL) analysis in a Pohn/B6 backcross population found four QTLs for LCR: Fcs1 on Chr 3 at 55 CM; Fcs2 on Chr X at 50 CM; Fcs3 on Chr 4 at 51 CM and Fcs4 on Chr 10 at 25 CM. Together, these four QTLs explain 26.1% of the variations in LCRs in the N2 population. These are the first QTLs reported that regulate fibroblast growth. Glutathione S transferase mu (GST-mu) genes are overrepresented in the 95% confidence interval of Fcs1, and Pohn TSFs have higher H(2)O(2)-induced GST-mu 4, 5 and 7 mRNA levels than B6 TSFs. These enzymes may protect Pohn TSFs from oxidation.
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PMID:Altered growth characteristics of skin fibroblasts from wild-derived mice, and genetic loci regulating fibroblast clone size. 1684 93

Smac/DIABLO (second mitochondria-derived activator of caspase/direct IAP-binding protein with low PI) is a 29 kDa mitochondrial precursor protein, which is proteolytically processed in mitochondria into a 23 kDa mature protein. It is released from the mitochondrial intermembrane space to cytosol after an apoptotic trigger. Smac/DIABLO acts as a dimer and it contributes to caspase activation by sequestering the inhibitor of apoptosis proteins (IAPs). In order to further investigate the mechanism of Smac/DIABLO action, we used the mature form of Smac/DIABLO as a bait and screened proteins that interact with mature Smac/DIABLO in human liver cDNA library using the yeast two-hybrid system. Forty-two colonies were obtained after 5.8x10(6) colonies were screened by nutrition limitation and X-galactosidase assay. After DNA sequence analysis and homology retrieval, one of the candidate proteins was identified as TRAF domain of the TNF receptor associated factor 3 (TRAF3). The interaction site between TRAF3 and Smac/DIABLO was identified by beta-galactosidase test. The interaction between TRAF3 and Smac/DIABLO via TRAF domain was identified in vivo by co-immunoprecipitation in HepG2 cells, and the direct interaction between TRAF3 and Smac/DIABLO in vitro was identified by GST-pull down assay. Co-expression of TRAF3 and mature Smac/DIABLO in 293 cells could enhance the Smac/DIABLO-mediated apoptosis. These results suggested that TRAF3 interacted with Smac/DIABLO via TRAF domain, leading to an increased proapoptotic effect of Smac/DIABLO in cytoplasm.
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PMID:TRAF3 interacts with Smac/DIABLO and enhances the proapoptotic effect of Smac/DIABLO in cytoplasm. 1727 85

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