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)

The synthetic glycosides, p-nitrophenyl- and o-nitrophenyl-2-acetamido-2-deoxy-3-O-beta-D-galactopyranosyl-alpha- D-galactopyranosides, were found to be effective chromogenic substrates for an endo-alpha-N-acetyl-D-galactosaminidase. We did not experience any problems when these substrates were used for the screening of column fractions during the purification of the endoenzyme from Diplococcus pneumoniae culture filtrates. However, it should be pointed out that a combination of exo-beta-galactosidase, capable of cleaving beta 1-->3 linkages, and an exo-alpha-N-acetyl galactosaminidase would also liberate nitrophenol from the above substrates. The enzyme had no action on several other synthetic glycosides tested indicating the strict specificity of this enzyme for the disaccharide Gal beta-->GalNAc linked via an alpha-linkage to the aglycone. The enzyme was inactive when the aglycone was methanol but shows activity against the glycosides of phenol, nitrophenols, serine, and threonine. The use of p-nitrophenyl-2-acetamido-2-deoxy-3-O-beta -D-galactopyranosyl-beta-D-galactopyranoside, which is a competitive inhibitor of the endoenzyme, as an affinity ligand for the purification of the enzyme is described.
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PMID:Action of endo-alpha-N-acetyl-D-galactosaminidase on synthetic glycosides including chromogenic substrates. 976 98

In Saccharomyces cerevisiae, the existence of PYC1 and PYC2 encoding cytosolic pyruvate carboxylase isoform I and II is rather puzzling, owing to the lack of potent differential gene regulation by the carbon sources. We report several findings indicating that these two genes are differentially regulated by the nature of the nitrogen source. In wild-type cells, the activity of pyruvate carboxylase, which is the sum of pyruvate carboxylase isoform I and II, was two- to fivefold lower in carbon medium containing aspartate, asparagine, glutamate or glutamine instead of ammonium as the nitrogen source, whereas it was 1.5- to threefold higher when the ammonium source was substituted by arginine, methionine, threonine or leucine. These enzymatic changes were independent of the nature of the carbon source and closely correlated to the changes in beta-galactosidase from PYC1-lacZ gene fusion and in PYC1 transcripts. Transfer of exponentially growing cells of the pyc2 mutant from an aspartate or a glutamate medium to an ammonium medium caused a fivefold increase in PYC1 mRNA in less than 30 min, whereas in the inverse experiment, PYC1 transcripts returned within 30 min to the low levels found in aspartate/glutamate medium. By contrast, these conditions affected neither the pyruvate carboxylase activity encoded by PYC2 nor PYC2 mRNA. Considering that changes in PYC1 expression inversely correlated with changes in alpha-ketoglutarate concentration or in alpha-ketoglutarate/glutamate ratio following the nitrogen shift experiments, and taking into account the pivotal role of this metabolite in ammonium assimilation, it is suggested that changes in alpha-ketoglutarate or in the alpha-ketoglutarate/glutamate ratio might be implicated in triggering the nitrogen effects on PYC1 expression. The physiological significance of the differential sensitivity of PYC1 and PYC2 genes with respect to the nitrogen source in the growth medium is also discussed.
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PMID:Regulation of pyc1 encoding pyruvate carboxylase isozyme I by nitrogen sources in Saccharomyces cerevisiae. 1108 92

Kanadaptin (kidney anion exchanger adaptor protein) has recently been identified as a protein with binding activity to the cytoplasmic domain of the kidney Na(+)-independent Cl(-)/HCO(-)(3) anion exchanger 1 (kAE1). Since it is widely expressed in tissues devoid of kAE1, however, kanadaptin is likely to have additional cellular roles. This is supported by its multidomain structure, and possession of three clusters of basic amino acids exhibiting similarity to known nuclear localization sequences (NLSs). In the present study, we use immunofluorescence and subcellular fractionation approaches to demonstrate that kanadaptin is localized within the nuclei of various epithelial and non-epithelial cultured cell types. The role of the different NLSs is examined in transfection studies using plasmids encoding full-length kanadaptin with or without green fluorescent protein (GFP) as a fusion tag, as well as truncation derivatives thereof. Strong nuclear localization of fusion proteins containing amino acids 140-230 of kanadaptin, which include the sequence AVSRKRKA(193) (NLS1) was observed. Substitution of Arg(191) with a threonine residue resulted in a cytoplasmic location of the expressed protein, while NLS1 proved sufficient to target an otherwise cytoplasmically localized beta-galactosidase-GFP fusion protein to the nucleus. Using a direct binding assay we show that a fusion protein containing kanadaptin amino acids 1-231 (but not the Thr(191) substituted derivative) is recognized with nM affinity by the conventional NLS-binding importin alpha/beta heterodimer. Nuclear import studies on microinjected and permeabilized rat hepatoma cells demonstrated functionality of the NLS in nuclear targeting, with inhibition by antibodies demonstrating the requirement of both importin alpha and beta for nuclear import of kanadaptin. That kanadaptin possesses a functional importin-alpha/beta-recognized NLS explains the nuclear localization of kanadaptin in various cultured cell types, and opens up the possibility that kanadaptin may have a signalling role in the nucleus.
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PMID:Signal- and importin-dependent nuclear targeting of the kidney anion exchanger 1-binding protein kanadaptin. 1177

In budding yeast, PKC1 plays an essential role in cell integrity and proliferation through a linear MAP (Mitogen Activated Protein) kinase phosphorylation cascade, which ends up with the activation of the Slt2-MAP kinase by dual phosphorylation on two conserved threonine and tyrosine residues. In this phosphorylated form, Slt2p kinase activates by phosphorylation at least two known downstream targets: Rlm1p, which is implicated in the expression of cell wall-related genes, and SBF, required for transcription activation of cell cycle-regulated genes at the G1 to S transition. In this paper, we demonstrate by two-hybrid, in vitro immunoprecipitation and tandem affinity purification (TAP) methods that Knr4p physically interacts with Slt2p. Moreover, we show that the absence of Knr4p alters proper signalling of Slt2p to its two known downstream targets. In a knr4 null mutant, the SLT2-dependent activation of Rlm1p is strongly reduced and the transcriptional activity of Rlm1p is decreased, although the phosphorylated form of Slt2p is more abundant than in wild-type cells. On the contrary, SBF is abnormally activated in this mutant, as shown by a more abundant phosphorylated form of Swi6p, by higher beta-galactosidase levels from a SCB-lacZ gene fusion, and by deregulation of the cyclic behaviour of several cell cycle-regulated genes. These results, taken together with our recent finding that Bck2p requires Knr4p to activate additively with Cln3-Cdc28p SBF target genes, lead to a model in which Knr4p is involved in co-ordinating the Slt2p-mediated cell wall integrity pathway with progression of the cell cycle.
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PMID:The interaction of Slt2 MAP kinase with Knr4 is necessary for signalling through the cell wall integrity pathway in Saccharomyces cerevisiae. 1282 8

Neale, S. (Department of Botany, University College, London, England), and H. Tristram. Effect of O-methyl-dl-threonine and O-methyl-dl-serine on growth and protein synthesis in Escherichia coli. J. Bacteriol. 86:1241-1250. 1963.-Addition of either O-methyl-dl-threonine or O-methyl-dl-serine to exponentially growing cultures of Escherichia coli resulted in "linear" increases in optical density. The total cell count, however, remained constant, the increase in optical density being accompanied by a marked increase in cell length. In the presence of O-methyl-dl-serine, a phase of "linear" growth was followed by exponential growth, which was maintained during a second passage through analogue-containing medium but not after a subsequent passage through normal medium, suggesting phenotypic adaptation to the analogue. The differential rate of incorporation of amino acids into trichloroacetic acid-insoluble material was unaffected by growth in the presence of either O-methyl-dl-threonine or O-methyl-dl-serine. Neither analogue was incorporated into E. coli protein. The effect of the analogues on the production of alkaline phosphatase and beta-galactosidase was examined. The precise point and mode of action of the analogues have not been determined, but available evidence suggests that the growth-inhibitory effects of both substances are due to interference with the biosynthesis of threonine and methionine.
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PMID:EFFECT OF O-METHYL-DL-THREONINE AND O-METHYL-DL-SERINE ON GROWTH AND PROTEIN SYNTHESIS IN ESCHERICHIA COLI. 1408 96

High-affinity complementation of a small fragment of beta-galactosidase to an inactive deletion mutant of the enzyme forms a stable heteromeric enzyme complex capable of hydrolyzing substrates to produce either chemiluminescent or fluorescent signals. This review describes a series of screening assays in which the small beta-galactosidase fragment, Enzyme Donor or ProLabel, is either chemically conjugated or recombinantly fused to small molecules or proteins, respectively. Chemical conjugation forms the basis of several HitHunter HTS assays in which competitive displacement of the ProLabel conjugate from either a binding protein (receptor or antibody) is induced by the analyte in question. In this manner, a calibration curve is generated, to measure cellular analytes including 3',5'-cyclic AMP. Changes in this second messenger, occurring due to G protein-coupled receptor (GPCR) activation, can thus be easily measured in a homogeneous assay. Similar assays have been developed for tyrosine kinases, serine threonine kinases, nuclear hormone receptors, and proteases. A second form of assay technology involves measurement of cellular protein expression, in which the protein is fused to ProLabel. Analysis can be undertaken in crude cell lysates, or with intact cells, using beta-galactosidase complementation in a microtiter plate. This homogeneous technology is highly sensitive and has been developed to measure protein expression changes occurring in response to pathway activation by targets such as GPCRs, tyrosine kinase receptors, and proteases. In summary, the DiscoveRx technology using beta-galactosidase complementation provides a robust and flexible assay technology for use in cell-free and cell-based HTS.
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PMID:Enzyme fragment complementation: a flexible high throughput screening assay technology. 1509 Jan 61

The ectopic expression of antibody fragments inside mammalian cells (intrabodies) is a challenging approach for probing and modulating target activities. We previously described the shuttling activity of intracellularly expressed Escherichia coli beta-galactosidase conferred by the single-chain Fv (scFv) fragment 13R4 equipped with nuclear import/export signals. Here, by appending to scFvs the proteolytic PEST signal sequence (a protein region rich in proline, glutamic acid, serine and threonine) of mouse ornithine decarboxylase, we tested whether short-lived or destabilized intrabodies could affect the steady-state level of target by redirecting it to the proteasomes. In the absence of antigen, the half-life of the modified scFv 13R4, relative to untagged molecules, was considerably reduced in vivo. However, after coexpression with either cytoplasmic or nuclear antigen, the destabilized 13R4 fragments were readily maintained in the cell and strictly colocalized with beta-galactosidase. Analysis of destabilized site-directed mutants, that were as soluble as 13R4 in the intracellular context, demonstrated that binding to antigen was essential for survival under these conditions. This unique property allowed specific detection of beta-galactosidase, even when expressed at low level in stably transformed cells, and permitted isolation by flow cytometry from a transfected cell mixture of those living cells specifically labeled with bound intrabody. Altogether, we show that PEST-tagged intrabodies of sufficient affinity and solubility are powerful tools for imaging the presence and likely the dynamics of protein antigens that are resistant to proteasomal degradation in animal cells.
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PMID:Extended half-life upon binding of destabilized intrabodies allows specific detection of antigen in mammalian cells. 1594 19

Experimental animals and patients with cardiac hypertrophy and heart failure display abnormally slowed myocardial relaxation, which is associated with downregulation of sarco(endo)plasmic reticulum calcium ATPase 2a (SERCA2a), the cardiomyocyte sarcoplasmic reticulum Ca2+ pump. We previously showed that SERCA2a downregulation can be simulated in cultured neonatal rat ventricular myocytes (NRVM) by treatment with the hypertrophic agonist phorbol myristate acetate (PMA) or by overexpression of the novel protein kinase C (PKC) isoenzymes PKCdelta and PKCepsilon. PKC activation, in turn, decreased SERCA2a promoter activity and destabilized the SERCA2a mRNA. Here we demonstrate by using an RSV beta-galactosidase reporter system that a 609-nt fragment of the SERCA2a mRNA 3'-untranslated region (UTR), containing five adenylate-uridylate (AU)-rich regions, may be responsible for destabilizing the message following PMA treatment. UV cross-linking analysis demonstrated that several proteins found in the NRVM cell extracts bind to the 609-nt fragment. In addition, protein binding was transiently increased in response to PMA stimulation. 3'-UTR mRNA pull-down assays and Western blot analysis indicated that the AU binding protein AUF1 interacted with the SERCA2a 3'-UTR. AUF1 binding activity was predominantly found in the nuclear fraction, and PMA-induced AUF1 binding was associated with increased threonine phosphorylation of AUF1. These data suggest that the phosphorylation, binding, and location of AUF1 affect the posttranscriptional regulation of the SERCA2a message in NRVM.
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PMID:Phosphorylation and binding of AUF1 to the 3'-untranslated region of cardiomyocyte SERCA2a mRNA. 1611 63

Extracellular accumulation of lysine and threonine was investigated in modified whey permeate by using Brevibacterium lactofermentum ATCC 21086 and Escherichia coli ATCC 21151. Whey permeate was prepared from whey by membrane ultrafiltration, and lactose was hydrolyzed by treating permeate with HCl or beta-galactosidase. The highest amount of lysine (3.3 g/liter) was produced from a mixture of acid-hydrolyzed whey permeate and yeast extract (0.2%). The highest amount of threonine (3.6 g/liter) was produced from a mixture of whey permeate, (NH(4))(2)SO(4) (1.4%), yeast extract (0.1%), and Na(2)CO(3) (0.3%).
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PMID:Microbial production of lysine and threonine from whey permeate. 1634 9

Myxococcus xanthus, a gram-negative soil bacterium, responds to amino acid starvation by entering a process of multicellular development which culminates in the assembly of spore-filled fruiting bodies. Previous studies utilizing developmental inhibitors (such as methionine, lysine, or threonine) have revealed important clues about the mechanisms involved in fruiting body formation. We used Biolog phenotype microarrays to screen 384 chemicals for complete inhibition of fruiting body development in M. xanthus. Here, we report the identification of a novel inhibitor of fruiting body formation and sporulation, beta-d-allose. beta-d-Allose, a rare sugar, is a member of the aldohexose family and a C3 epimer of glucose. Our studies show that beta-d-allose does not affect cell growth, viability, agglutination, or motility. However, beta-galactosidase reporters demonstrate that genes activated between 4 and 14 h of development show significantly lower expression levels in the presence of beta-d-allose. Furthermore, inhibition of fruiting body formation occurs only when beta-d-allose is added to submerged cultures before 12 h of development. In competition studies, high concentrations of galactose and xylose antagonize the nonfruiting response to beta-d-allose, while glucose is capable of partial antagonism. Finally, a magellan-4 transposon mutagenesis screen identified glcK, a putative glucokinase gene, required for beta-d-allose-mediated inhibition of fruiting body formation. Subsequent glucokinase activity assays of the glcK mutant further supported the role of this protein in glucose phosphorylation.
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PMID:Beta-D-Allose inhibits fruiting body formation and sporulation in Myxococcus xanthus. 1705 49


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