Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 beta-galactosidase-based assay for lysine developed by Tuffnell & Payne was used to measure the bioavailabilities of cyst(e)ine, methionine, threonine and tryptophan in pronase digests of 17 foods. The digests were assayed by estimating the beta-galactosidase synthesis responses of five Escherichia coli mutants, each requiring one of the respective amino acids for protein synthesis. Deletion mutants were used whenever possible in order to ensure strain stability. Single digests of each food were assayed with 3 or 4 separate cultures of each mutant and the results were compared with those from the corresponding chemical assay. Omitting the anomalously low values for one food, the rank correlation coefficients of the bio- and chemo-assay values were 0.61 (cysteine), 0.91 (lysine), 0.95 (methionine), 0.64 (threonine) and 0.85 (tryptophan). Mean (+/- S.D.) relative amino acid bioavailabilities (casein = 100%) for the 17 foods were: cysteine, 53 +/- 23; lysine, 90 +/- 10; methionine, 95 +/- 18; threonine, 89 +/- 13; and tryptophan, 89 +/- 25. The cysteine mutant appeared to give unusually low bioavailability values except for the milk products. These amino acid mutants afford a rapid method for assaying the bioavailabilities of at least four of the five amino acids studied.
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PMID:The use of Escherichia coli mutants to measure the bioavailability of essential amino acids in foods. 265 34

Considerable interest exists in the HIV-1 protease for biochemical studies as a potential therapeutic target of acquired immunodeficiency syndrome. We have produced the retroviral enzyme in E. coli from a synthetic gene encoding the protease that was constructed by assembling six overlapping and complementary oligonucleotides into the vector pKK223-3. When expressed in E. coli, the recombinant protease was able to correctly process the HIV-1 core protein p24 from a beta-galactosidase-gag fusion protein and to use a heptapeptide as a substrate for proteolytic cleavage. A single base pair mutation was identified in a recombinant that resulted in the substitution of lysine for asparagine at position 88 and a significant loss of enzyme activity. Through site-directed mutagenesis, the Asn88 was changed to five other residues representative of all classes of amino acids. The correlation between enzyme activity and amino acid substitution suggests that the protease domain surrounding position 88 affects the protein's potential for forming an active homodimeric protein and hence, indicates a biochemical interaction that could be inhibited by novel antiviral compounds.
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PMID:HIV-1 protease: mutagenesis of asparagine 88 indicates a domain required for dimer formation. 269 24

A number of bacterial isolates which could not be identified as either Salmonella or Citrobacter by conventional biochemical tests and could not be typed as Salmonella with available antisera, were further examined biochemically and by lysis with phage Felix 0.1. Glycerol-positive salmonellae and lysine-positive citrobacters were encountered, which could be confused with the other genus, but when the reactions of such strains were examined in the other tests, accurate identifications could be done. Of the tests examined, glycerol fermentation, the beta-galactosidase test, lysine decarboxylation, sorbose fermentation, galacturonate fermentation and lysis by the phage could be used in the differentiation. These tests in combination, rather than 1 or 2 single tests gave reliable and conclusive differentiation.
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PMID:The biochemical differentiation between Salmonella and Citrobacter. 269 17

Citrobacter freundii encodes an inducible chromosomal beta-lactamase. Induction requires the product of the ampR gene, which is transcribed in the opposite orientation from the ampC beta-lactamase gene. We show here that the AmpR protein acts as a transcriptional activator by binding to a DNA region immediately upstream of the ampC promoter. The DNase I footprint pattern was not affected by growth in the presence of beta-lactam inducer or by the use of extracts prepared from cells carrying the ampD2 allele leading to semiconstitutive production of beta-lactamase. It is suggested that activation of AmpR facilitates binding or open complex formation for RNA polymerase at the ampC promoter. The AmpR-binding site overlaps the ampR promoter, and beta-galactosidase activity was decreased from an ampR-lacZ transcriptional fusion when AmpR was expressed from a coresident plasmid, suggesting that ampR is autogenously controlled. The AmpR protein belongs to a family of highly homologous transcriptional activators that includes LysR, which regulates the E. coli lysine synthetase gene, and the NodD protein, which regulates expression of a number of genes involved in nodulation in Rhizobium. The lack of sequence homology to any known beta-lactam-binding protein suggests that AmpR does not bind directly to the beta-lactam inducer but interacts with a second messenger of unknown nature.
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PMID:Binding of the Citrobacter freundii AmpR regulator to a single DNA site provides both autoregulation and activation of the inducible ampC beta-lactamase gene. 278 68

A cDNA library was prepared in lambda gt11 bacteriophage from poly(A)+ RNA isolated from primary cultures of endothelial cells from human umbilical vein. Approximately 2.5 million independent recombinants were screened and 2 of those were found to synthesize a fusion protein with beta-galactosidase that reacted with rabbit antibody against human von Willebrand factor. Comparison of the amino acid sequence translated from the cDNA insert of the two clones with the amino acid sequence determined by Edman degradation of the protein established that both phage isolates code for von Willebrand factor. The first clone (lambda HvWF1) contained an insert of 404 nucleotides that corresponded to amino acid residues 1-110 in the mature protein circulating in blood, in addition to a portion (24 amino acids) of a prepro leader sequence. The second cDNA clone (lambda HvWF3) contained an insert of 4.9 kilobases that coded for the carboxyl-terminal 1525 amino acids of von Willebrand factor, a stop codon of TGA, 134 nucleotides of 3' noncoding sequence, and a poly(A) tail of 150 nucleotides. The two clones together code for greater than 80% of the molecule circulating in blood. The same carboxyl-terminal lysine residue was identified in the mature protein as well as in the cDNA, indicating that all of the proteolytic processing that occurs during the biosynthesis and assembly of von Willebrand factor is associated with the amino-terminal portion of the precursor protein. The amino acid sequence of von Willebrand factor indicates the presence of two different internal gene duplications and one triplication. These repetitive amino acid sequences account for about one-half of the amino acids present in the mature protein. The tetrapeptide sequence of Arg-Gly-Asp-Ser, which mediates the cell attachment and platelet binding activity of fibronectin, was also identified in the carboxyl-terminal portion of von Willebrand factor.
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PMID:Cloning and characterization of two cDNAs coding for human von Willebrand factor. 286 88

A total of 32 strains of the family Leptospiraceae (23 strains of Leptospira interrogans, 6 strains of Leptospira biflexa, 2 strains of Leptonema and 1 strain of Leptospira parva) were examined for enzyme activities using 89 substrates (API ZYM system). More than 90% of the strains belonging to the family Leptospiraceae possessed strong activities of beta-D-galactosidase, beta-D-glucosidase and 5 esterases (C5, C6, C8, C9 and C10). More than 90% of the strains belonging to the genus Leptospira, except L. parva, had strong activities of L-lysine arylamidase and alpha-L-glutamate arylamidase. L. biflexa strains, except serovar andamana, were different from the other strains examined in that they possessed glycyl-glycine arylamidase, glycyl-phenylalanine arylamidase and L-tryptophan arylamidase. L. biflexa strains, except andamana, L. parva and Leptonema strains possessed strong activities of glycine arylamidase and leucyl-glycine arylamidase. Two strains of the genus Leptonema were different from the strains belonging to the genus Leptospira in that they possessed strong activities of beta-D-lactosidase. L. parva lacked alpha-D-galactosidase which other strains belonging to the family Leptospiraceae possessed. Dendrogram analysis revealed that strains belonging to the family Leptospiraceae were divided into 4 groups. The first group consisted of all strains belonging to L. interrogans and serovar andamana of L. biflexa; the second group consisted of the remaining 5 serovars of L. biflexa; the third group consisted of the genus Leptonema; and the fourth group consisted of only L. parva.
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PMID:Enzyme activities of the strains belonging to family Leptospiraceae detected by the API ZYM system. 289 26

Expression of the bacteriophage Mu mom gene is under tight regulatory control. One of the factors required for mom gene expression is the trans-acting function (designated Dad) provided by another Mu gene. To facilitate studies on the signals mediating mom regulation, we have constructed a mom-lacZ fusion plasmid which synthesizes beta-galactosidase only when the Mu Dad transactivating function is provided. lambda pMu phages carrying different segments of the Mu genome have been assayed for their ability to transactivate beta-galactosidase expression by the fusion plasmid. The results of these analyses indicated that the Dad transactivation function is encoded between the leftmost EcoRI site and the lys gene of Mu; this region includes the C gene, which is required for expression of all Mu late genes. Cloning of an approx. 800-bp fragment containing the C gene produced a plasmid which could complement MuC- phages for growth and could transactivate the mom-lacZ fusion plasmid to produce beta-galactosidase. These results suggest that the C gene product mediates the Dad transactivation function.
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PMID:Regulation and expression of the bacteriophage mu mom gene: mapping of the transactivation (dad) function to the C region. 293 97

A method is described which allows alpha-human atrial natriuretic peptide to be synthesized in stable form and with high yield in Escherichia coli. In the final expression system, eight copies of the synthetic alpha-hANP gene were linked in tandem, separated by codons specifying a 4-amino-acid (aa) linker with lysine residues flanking the authentic N and C termini of the 28-aa hormone. This sequence was in turn joined to the 3' end of a fragment containing the lac promoter and a leader sequence coding for the first seven N-terminal amino acids of beta-galactosidase. The expressed multidomain protein accumulated intracellularly into stable inclusion bodies and was easily purified by urea extraction of the insoluble cell fraction. The purified protein was cleaved into monomers by digestion with endoproteinase Lys-C, trimmed to expose the authentic C terminus by digestion with carboxypeptidase-B and a single disulfide bond was formed by gentle oxidation with potassium ferricyanide. The fully processed recombinant peptide was shown by reverse phase liquid chromatography to be indistinguishable from the chemically synthesized standard alpha-hANP in both the reduced and in the folded form.
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PMID:High-level expression of alpha-human atrial natriuretic peptide from multiple joined genes in Escherichia coli. 296 62

The HO gene product of Saccharomyces cerevisiae is a site-specific endonuclease that initiates mating type interconversion. We have determined the nucleotide sequence of a 3,129-base-pair (bp) segment containing HO. The segment contains a single long open reading frame encoding a polypeptide of 586 amino acids, which has unusual (unbiased) codon usage and is preceded by 762 bp of upstream region. The predicted HO protein is basic (16% lysine and arginine) and is calculated to have a secondary structure that is 30% helical. The corresponding transcript is initiated approximately 50 nucleotides prior to the presumed initiation codon. Insertion of an Escherichia coli lacZ gene fragment into the putative HO coding segment inactivated HO and formed a hybrid HO-lacZ gene whose beta-galactosidase activity was regulated by the mating type locus in the same manner as HO (repressed by a 1-alpha 2). Upstream regions of 1,360 and 762 bp conferred strong repression; 436 bp led to partial constitutivity and 301 bp to full constitutivity. Thus, DNA sequences that confer repression of HO by a1-alpha 2 are at least 250 nucleotides upstream of the transcription start point and are within 436 nucleotides of the HO initiation codon. The progressive loss of repression suggests that both the -762 to -436 and the -436 to -301 intervals contain sites for regulation by a1-alpha 2. The HO gene contains two distinct regions that promote autonomous replication of plasmids in S. cerevisiae. These regions contain sequences that are homologous to the two conserved sequences that are associated with ARS activity.
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PMID:Structure of the Saccharomyces cerevisiae HO gene and analysis of its upstream regulatory region. 302 49

Saccharomyces cerevisiae glucokinase (GLK) is the only described hexose-phosphorylating enzyme specific for aldo-hexoses. The gene was cloned by complementation of a triple mutant lacking all hexose-phosphorylating isoenzymes. Restriction sites were confirmed by genomic hybridization and GLK1 was mapped on chromosome III by ROFAGE, a method derived from the orthogonal field alteration gel electrophoresis. The mapping data were in agreement with previous genetic data. The open reading frame was established by two transcription start points in front of the initial ATG codon and by C-terminal beta-galactosidase fusions. The mRNA is 1.75 kb long and codes for 500 amino acid (aa) residues. Diversity of GLK from hexokinases PI and PII is very marked, with only 26 and 28% overall aa homology. A central core of about 350 aa shows 39% homology. No cross-hybridization could be observed by Southern hybridization. However, strong homologies were found over a range of 11 aa between glucokinase, yeast hexokinases (PI, PII) and rat hexokinase with 8 aa in common. These strongly conserved homologies give support to the view that this aa region corresponds to the binding site for glucose. Unlike all other hexose-phosphorylating enzymes, there is no proline residue indicating a conformational turn next to this glucokinase region. This finding may explain the failure of fructose phosphorylation. In both GLK and the hexokinases, a lysine residue is also conserved at aa position 110 which probably corresponds to the ATP-binding site. Additionally, a consensus sequence of 8 aa residues which is common for ATP-binding enzymes is conserved within the C-terminal part of GLK. The codon bias index for GLK1 is 0.25, which is very low compared with other glycolytic enzymes described so far. The gene is moderately expressed and constitutive on different carbon sources investigated. GLK1 null alleles had no detectable effects on sporulation and growth. Hence, a physiological role for GLK, which might explain its preservation, could not be detected under our laboratory test conditions.
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PMID:Structure of yeast glucokinase, a strongly diverged specific aldo-hexose-phosphorylating isoenzyme. 307 53


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