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)

A cDNA clone corresponding to a portion of the catalytic subunit of calmodulin (CaM)-dependent phosphoprotein phosphatase (calcineurin) was isolated from a murine brain library by expression vector immunoscreening. A beta-galactosidase fusion protein that reacted on Western blots with anti-calcineurin antibodies and biotinylated CaM was purified in preparative amounts using CaM-Sepharose affinity chromatography. Partial digestion of the hybrid protein with Staphylococcus aureus V-8 protease produced several immunoreactive peptides that appeared identical to fragments generated from authentic brain calcineurin. The 1111-base-pair (bp) EcoRI insert contained an open reading frame encoding a protein of 35 kDa followed by a 190-bp 3' noncoding region; seven peptides obtained by partial amino acid sequencing of the bovine brain enzyme were found in the deduced sequence. A domain approximately 12 kDa from the carboxyl terminus was deduced to be the CaM-binding site based on consensus structural features and a sequence of seven amino acids highly related to smooth muscle myosin light-chain kinase. Two regions with identity to protein phosphatases 1 and 2A were found in the amino half of the cloned sequence; however, the intervening sequence contained apparent insertions, suggesting splicing of subdomains. Thus, the structure of calcineurin is chimeric, consisting of conserved catalytic elements and a regulatory CaM-binding domain.
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PMID:Characterization of a cDNA clone encoding the calmodulin-binding domain of mouse brain calcineurin. 284 50

The FLAG peptide has been widely used as a multi-purpose tag for the identification and detection of recombinant FLAG fusion proteins. The practicability of this approach depends on specific detection of FLAG fusion proteins with no or very little cross-reactivity to cellular proteins. We have isolated a rat cDNA clone coding for a new splicing isoform of Mg2+ dependent protein phosphatase beta (MPP beta) by screening a rat brain expression library with monoclonal antibody Anti-FLAG M2. MPP beta reacts strongly both as a MPP beta-beta-galactosidase- and as a glutathione S-transferase fusion protein with anti-FLAG M2 antibodies. Sequence analysis of MPP beta revealed a sequence motif with five out of eight amino acid residues identical to the FLAG peptide hitherto believed to be mono-specific.
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PMID:Monoclonal anti-FLAG antibodies react with a new isoform of rat Mg2+ dependent protein phosphatase beta. 753 4

Efficient translation of the mRNA encoding the 65-kDa regulatory subunit (PR65 alpha) of protein phosphatase 2A (PP2A) is prevented by an out of frame upstream AUG and a stable stem-loop structure (delta G = -55.9 kcal/mol) in the 5'-untranslated region (5'-UTR). Deletion of the 5'-UTR allows efficient translation of the PR65 alpha message in vitro and overexpression in COS-1 cells. Insertion of the 5'-UTR into the beta-galactosidase leader sequence dramatically inhibits translation of the beta-galactosidase message in vitro and in vivo, confirming that this sequence functions as a potent translation regulatory sequence. Cells transfected or microinjected with a PR65 alpha expression vector lacking the 5'-UTR, express high levels of PR65 alpha, accumulating in both nucleus and cytoplasm. PR65 alpha overexpressing rat embryo fibroblasts (REF-52 cells) become multinucleated. These data and previous results (Mayer-Jaekel, R. E., Ohkura, H., Gomes, R., Sunkel, C. E., Baumgartner, S., Hemmings, B. A., and Glover, D. M. (1993) Cell 72, 621-633) suggest that PP2A participates in the regulation of both mitosis and cytokinesis.
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PMID:Deregulation of translational control of the 65-kDa regulatory subunit (PR65 alpha) of protein phosphatase 2A leads to multinucleated cells. 767 73

A cDNA clone encoding the calcium-binding subunit of calcineurin, calcineurin B, was isolated from a bovine brain library by immunoscreening. The 841 bp cDNA has a 56 bp 5'-noncoding region, an open reading frame of 510 bp, and a 275 bp 3'-noncoding sequence. The deduced amino acid sequence of bovine calcineurin B differs from the previously reported protein sequence (Aitken et al., 1984) by three residues. The sequence contained additional valine at the carboxyl terminus and substitutions of Met-11 and Ser-153 (the positions according to Aitken et al., 1984) by cysteine. The amino acid sequence of bovine calcineurin B was found to be identical to that of human calcineurin B sequence (Guerini et al., 1989). In fact, 97.1% homology was observed between the coding regions of human and bovine calcineurin B. In addition, a very high homology of 95.2% was observed for the 3'-noncoding region while the 5'-noncoding region showed 58.9% homology. The beta-galactosidase fusion protein, having the apparent molecular weight of 29 kDa, was detected on Western blots by subunit B-specific monoclonal antibody (Matsui et al., 1985). Northern analysis revealed that there is a single calcineurin B transcript in bovine brain which is 2.3 kb in length. This is in agreement with the observation of only one immunologically detectable subunit B protein in bovine brain (Matsui et al., 1985).
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PMID:Isolation and characterization of a cDNA clone coding for the calcium-binding subunit of calcineurin from bovine brain: an identical amino acid sequence to the human protein. 780 16

The involvement of serine/threonine protein phosphatases in signaling pathways which modulate the activity of the transcription factor AP-1 was examined. Purified protein phosphatase types 1 (PP1) and 2A (PP2A) were microinjected into cell lines containing stably transfected lacZ marker genes under the control of an enhancer recognized by AP-1. Microinjection of PP2A potentiated serum-stimulated beta-galactosidase expression from the AP-1-regulated promoter. Similarly, transient expression of the PP2A catalytic subunit with c-Jun resulted in a synergistic transactivation of an AP-1-regulated reporter gene. PP2A, but not PP1, potentiated serum-induced c-Jun expression, which has been previously shown to be autoregulated by AP-1 itself. Consistent with these results, PP2A dephosphorylated c-Jun on negative regulatory sites in vitro, suggesting one possible direct mechanism for the effects of PP2A on AP-1 activity. Microinjection of PP2A had no effect on cyclic AMP (cAMP)-induced expression of a reporter gene containing a cAMP-regulated promoter, while PP1 injection abolished cAMP-induced gene expression. Taken together, these results suggest a specific role for PP2A in signal transduction pathways that regulate AP-1 activity and c-Jun expression.
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PMID:Protein phosphatase 2A potentiates activity of promoters containing AP-1-binding elements. 838 5

The mechanism of action of the immunosuppressive drug cyclosporin A (CsA) is the inactivation of the Ca2+/calmodulin-dependent serine-threonine phosphatase calcineurin by the drug-immunophilin complex. Inactive calcineurin is unable to activate the nuclear factor of activated T cells (NFAT), a transcription factor required for expression of the interleukin 2 (IL-2) gene. IL-2 production by CsA-treated cells is therefore dramatically reduced. We demonstrate here, however, that NFAT can be activated, and significant levels of IL-2 can be produced by the CsA-resistant CD28-signaling pathway. In transient transfection assays, both multicopy NFAT- and IL-2 promoter-beta-galactosidase reporter gene constructs could be activated by phorbol 12-myristate 13-acetate (PMA)/alpha-CD28 stimulation, and this activation was resistant to CsA. Electrophoretic mobility shift assay showed the induction of a CsA-resistant NFAT complex in the nuclear extracts of peripheral blood T cells stimulated with PMA plus alphaCD28. Peripheral blood T cells stimulated with PMA/alphaCD28 produced IL-2 in the presence of CsA. Collectively, these data suggest that NFAT can be activated and IL-2 can be produced in a calcineurin independent manner.
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PMID:Activation of nuclear factor of activated T cells in a cyclosporin A-resistant pathway. 863 9

Transient transfection of COS-1 cells with an expression vector for NIPP-1, a nuclear subunit of protein phosphatase-1, did not result in an overexpression of NIPP-1 protein, although the levels of mRNA encoding NIPP-1 increased dramatically. Moreover, high concentrations of NIPP-1 mRNA inhibited the translation in reticulocyte lysates of various unrelated mRNAs. This inhibition of translation was caused by the NIPP-1 messenger and not by the translation product, since mutation of the start codon abolished NIPP-1 protein production, but had no influence on the translational inhibition. Analysis of deletion mutants showed that the inhibition was mediated by a 0.5-kb fragment in the 5'-end of the NIPP-1 mRNA. This region, when inserted in the 5'-untranslated region of the beta-galactosidase messenger, inhibited the translation of beta-galactosidase mRNA in COS-1 cells. A predicted highly stable secondary structure deltaG = -239.5 kJ/mol) is present between residues 300 and 500 of NIPP-1 mRNA. The possible importance of this structure in the translational inhibition is discussed.
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PMID:Inhibition of translation by mRNA encoding NIPP-1, a nuclear inhibitor of protein phosphatase-1. 924 54

Interferon-gamma (IFN-gamma) is a pleiotropic lymphokine whose production is restricted to activated T cells and NK cells. Along with other cytokines, IFN-gamma gene expression is inhibited by the immunosuppressant cyclosporin A. We have previously identified an intronic enhancer region (C3) of the IFN-gamma gene that binds the NF-kappaB protein c-Rel and that shows partial DNA sequence homology with the cyclosporin A-sensitive NFAT binding site and the 3'-half of the NF-kappaB consensus site. Sequence analysis of the IFN-gamma promoter revealed the presence of two additional C3-related elements (C3-1P and C3-3P). In addition, an NF-kappaB site (IFN-gamma kappaB) was identified within the promoter region. Based on this observation, we have analyzed the potential role of NF-kappaB and NFAT family members in regulating IFN-gamma transcription. Electrophoretic mobility shift assay analysis demonstrated that after T cell activation, the p50 and p65 NF-kappaB subunits bind specifically to the newly identified IFN-gamma kappaB and C3-related sites. In addition, we identified the NFAT proteins as a component of the inducible complexes that bind to the C3-3P site. Site-directed mutagenesis and transfection studies demonstrate that calcineurin-inducible transcriptional factors enhance the transcriptional activity of the IFN-gamma promoter through the cyclosporin-sensitive C3-3P site, whereas NF-kappaB proteins functionally interact with the C3-related sites. In addition, when located downstream to the beta-galactosidase gene driven by the IFN-gamma promoter, the intronic C3 site worked in concert with both the IFN-gamma kappaB and the C3-3P site to enhance gene transcription. These results demonstrate that the coordinate activities of NFAT and NF-kappaB proteins are involved in the molecular mechanisms controlling IFN-gamma gene transcription.
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PMID:Interaction of NF-kappaB and NFAT with the interferon-gamma promoter. 937 32

We have employed a yeast (Saccharomyces cerevisiae) based rat androgen receptor expression system to examine the cross-talk between different signalling pathways. We report here the synergistic modulation of androgen regulated transcriptional activation of beta-galactosidase reporter activity by the activators of protein kinase-A, like forskolin and 8-bromo-cyclic AMP. A similar ligand-dependent enhancement of reporter activity compared to a DHT treated control has been noticed with okadaic acid, which is a potent inhibitor of protein phosphatase. The activation could be blocked by protein kinase-A/C inhibitor, H7. Forskolin treatment neither altered levels of receptor mRNA nor [3H]R1881 binding to the receptor. Although it promotes binding of receptor to an androgen response element, forskolin was unable to activate subsequent interaction with the transcription machinery in the absence of androgen. Additionally, the synergistic actions of these activators were independent of the degree of androgen response element occupancy. Anti-androgens, cyproterone acetate and flutamide, which failed to exhibit antagonistic behaviour with yeast expressed receptor, were able to antagonize only the forskolin mediated augmentation of reporter activity. Finally, analyses of mutants established the role of DNA and steroid binding domains of receptor for this synergism.
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PMID:Synergistic activation of yeast-expressed rat androgen receptor by modulators of protein kinase-A. 1002 42

The regulatory subunit of S. cerevisiae casein kinase II (CKII) is encoded of two genes, CKB1 and CKB2. Strains harboring deletions of either or both genes exhibit specific sensitivity to high concentrations of Na+ or Li+. Na+ tolerance in S. cerevisiae is mediated primarily by transcriptional induction of ENA1, which encodes the plasma membrane sodium pump, and by conversion of the potassium uptake system to a higher affinity form that discriminates more efficiently against Na+. To determine whether reduced ENA1 expression plays a role in the salt sensitivity of ckb mutants, we integrated an ENA1-lacZ reporter gene into isogenic wild-type, ckb1, ckb2, and ckb1 ckb2 strains and monitored beta-galactosidase activity at different salt concentrations. In all three mutants transcription from the ENA1 promoter remained salt-inducible, but both basal and salt-induced expression was depressed approximately 3- to 4-fold. The degree of reduction in ENA1 expression was comparable to that observed in an isogenic strain carrying a null mutation in protein phosphatase 2B (calcineurin), which is also required for salt tolerance. These results suggest that reduced expression ofENA1 contributes to the salt sensitivity of ckb strains. Consistent with this conclusion, overexpression of ENA1 from a heterologous promoter (GAL1) completely suppressed the salt sensitivity of ckb mutants. Induction of ENA1 expression by alkaline pH is also depressed in ckb mutants, but unlike calcineurin mutants, ckb strains are not growth inhibited by alkaline pH.
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PMID:Transcriptional regulation of the S. cerevisiae ENA1 gene by casein kinase II. 1009 5

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