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 Bacillus subtilis xyl operon encoding enzymes for xylose utilization is repressed in the absence of xylose and in the presence of glucose. Transcriptional fusions of spoVG-lacZ to this operon show regulation of beta-galactosidase expression by glucose, indicating that glucose repression operates at the level of transcription. A similar result is obtained when glucose is replaced by glycerol, thus defining a general catabolite repression mechanism. A deletion of xylR, which encodes the xylose-sensitive repressor of the operon, does not affect glucose repression. The cis element mediating glucose repression was identified by Bal31 deletion analysis. It is confined to a 34 bp segment located at position +125 downstream of the xyl promoter in the coding sequence for xylose isomerase. Cloning of this segment in the opposite orientation leads to reduced catabolite repression. The homology of this element to various proposed consensus sequences for catabolite repression in B. subtilis is discussed.
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PMID:Catabolite repression of the operon for xylose utilization from Bacillus subtilis W23 is mediated at the level of transcription and depends on a cis site in the xylA reading frame. 192 70

Two novel genes affecting hexose transport in the yeast Saccharomyces cerevisiae have been identified. The gene HXT1 (hexose transport), isolated from plasmid pSC7, was sequenced and found to encode a hydrophobic protein which is highly homologous to the large family of sugar transporter proteins from eucaryotes and procaryotes. Multicopy expression of the HXT1 gene restored high-affinity glucose transport to the snf3 mutant, which is deficient in a significant proportion of high-affinity glucose transport. HXT1 was unable to complement the snf3 growth defect in low copy number. The HXT1 protein was found to contain 12 putative membrane-spanning domains with a central hydrophilic domain and hydrophilic N- and C-terminal domains. The HXT1 protein is 69% identical to GAL2 and 66% identical to HXT2, and all three proteins were found to have a putative leucine zipper motif at a consensus location in membrane-spanning domain 2. Disruption of the HXT1 gene resulted in loss of a portion of high-affinity glucose and mannose transport, and wild-type levels of transport required both the HXT1 and SNF3 genes. Unexpectedly, expression of beta-galactosidase activity by using a fusion of the lacZ gene to the HXT1 promoter in a multicopy plasmid was maximal during lag and early exponential phases of growth, decreasing approximately 100-fold upon further entry into exponential growth. Deletion analysis of pSC7 revealed the presence of another gene (called ORF2) capable of suppressing the snf3 null mutant phenotype by restoring high-affinity glucose transport and increased low-affinity transport.
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PMID:The HXT1 gene product of Saccharomyces cerevisiae is a new member of the family of hexose transporters. 204 78

The structure of the N-linked oligosaccharide of the 85-kDa surface glycoprotein (Tc-85) from the infective trypomastigote form of Trypanosoma cruzi was investigated. Tc-85 metabolically labeled with [14C]glucose was purified by affinity chromatography on wheat germ agglutinin-Sepharose. Binding to the lectin was lost on treatment of Tc-85 with neuraminidase. The N-linked asialo-oligosaccharide was released by endo-beta-N-acetylglucosaminidase F digestion of asialo-Tc-85 and was further analyzed using specific exoglycosidases. [14C]fucose was detected after alpha-L-fucosidase treatment or mild acid hydrolysis. The afucosyl oligosaccharide was 3H-labeled by the galactose oxidase-NaB3H4 method. [3H]Galactose was released by alpha-galactosidase, and only then was beta-galactosidase effective in removing another galactose. The gal(alpha 1-3)gal unit was demonstrated by periodate oxidation studies on the [3H]galactose-labeled asialo-glycoprotein. The presence of gal(alpha 1-3)gal in Tc-85 could be related to the recent finding of elevated antibody levels against this epitope in patients with Chagas' disease.
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PMID:The N-linked carbohydrate chain of the 85-kilodalton glycoprotein from Trypanosoma cruzi trypomastigotes contains sialyl, fucosyl and galactosyl (alpha 1-3)galactose units. 210 74

The transcriptional activator LAC9, a GAL4 homolog of Kluyveromyces lactis which mediates lactose and galactose-dependent activation of genes involved in the utilization of these sugars can also confer glucose repression to those genes. Here we report on the isolation and characterization of LAC9-2, an allele which encodes a glucose-sensitive activator in contrast to the one previously cloned. A single amino acid exchange of leu-104 to tryptophan is responsible for the glucose-insensitive phenotype. The mutation is located within the Zn-finger-like DNA binding domain which is highly conserved between LAC9 and GAL4. Glucose repression is also eliminated by duplication of the LAC9-2 allele. The data indicate that LAC9 is a limiting factor for beta-galactosidase gene expression under all growth conditions and that glucose reduces the activity of the activator.
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PMID:A mutation in the Zn-finger of the GAL4 homolog LAC9 results in glucose repression of its target genes. 210 31

Saccharomyces cerevisiae chromosomes end with the sequence C2-3A(CA)1-4, commonly abbreviated as C1-3A. These sequences can function as upstream activators of transcription (UAS's) when placed in front of a CYC1-lacZ fusion gene. When C1-3A sequences are placed between the GAL1,10 UAS and the CYC1-lacZ fusion, the C1-3A UAS still functions and the amount of beta-galactosidase produced in cells grown on glucose is as much or more than that for cells grown on either glycerol medium, or cells grown on glucose medium containing a plasmid with just the C1-3A UAS. These data indicate that the UAS is immune from glucose repression from the upstream GAL1,10 UAS. Because C1-3A sequences are bound in vitro by the transcription factor RAP1, the UAS activity of yeast telomere sequences was compared with that of a similar UAS from the tightly regulated ribosomal protein gene RP39A, which also contains a RAP1 binding site. While transcription from the ribosomal protein gene UAS was responsive to cell density, the amount of transcription from the C1-3A UAS was nearly the same at all cell densities tested. These data show that the transcriptional activation by C1-3A sequences is not regulated by cell density.
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PMID:Properties of the transcriptional enhancer in Saccharomyces cerevisiae telomeres. 211 Jun 55

Xanthomonas campestris pv. campestris possesses a low level of beta-galactosidase and therefore is not able to grow and produce significant amounts of xanthan gum in a medium containing lactose as the sole carbon source. In this study, a beta-galactosidase expression plasmid was constructed by ligating an X. campestris phage phi LO promoter with pKM005, a ColE1 replicon containing Escherichia coli lacZY genes and the lpp ribosome-binding site. It was then inserted into an IncP1 broad-host-range plasmid, pLT, and subsequently transferred by conjugation to X. campestris 17, where it was stably maintained. The lacZ gene under the control of the phage promoter was expressed at a high level, enabling the cells to grow in a medium containing lactose. Production of xanthan gum in lactose or diluted whey by the engineered strain was evaluated, and it was found to produce as much xanthan gum in these substrates as the cells did in a medium containing glucose.
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PMID:Construction of lactose-utilizing Xanthomonas campestris and production of xanthan gum from whey. 211 Nov 16

Yeast mutants assigned to the pet complementation group G104 were found to lack alpha-ketoglutarate dehydrogenase activity as a result of mutations in the dihydrolipoyl transsuccinylase (KE2) component of the complex. The nuclear gene KGD2, coding for yeast KE2, was cloned by transformation of E250/U6, a G104 mutant, with a yeast genomic library. Analysis of the KGD2 sequence revealed an open reading frame encoding a protein with a molecular weight of 52,375 and 42% identities to the KE2 component of Escherichia coli alpha-ketoglutarate dehydrogenase complex. Disruption of the chromosomal copy of KGD2 in a respiratory-competent haploid yeast strain elicited a growth phenotype similar to that of G104 mutants and abolished the ability to mitochondria to catalyze the reduction of NAD+ by alpha-ketoglutarate. The expression of KGD2 was transcriptionally regulated by glucose. Northern (RNA) analysis of poly(A)+ RNA indicated the existence of two KGD2 transcripts differing in length by 150 nucleotides. The concentrations of both RNAs were at least 10 times lower in glucose (repressed)- than in galactose (derepressed)-grown cells. Different 5'-flanking regions of KGD2 were fused to the lacZ gene of E. coli in episomal plasmids, and the resultant constructs were tested for expression of beta-galactosidase in wild-type yeast cells and in hap2 and hap3 mutants. Results of the lacZ fusion assays indicated that transcription of KGD2 is activated by the HAP2 and HAP3 proteins. The regulated expression of KGD2 was found to depend on sequences that map to a region 244 to 484 nucleotides upstream of the structural gene. This region contains two short sequence elements that differ by one nucleotide from the consensus core (5'-TN[A/G]TTGGT-3') that has been proposed to be essential for binding of the HAP activation complex. These data together with earlier reports on the regulation of the KGD1 and LPD1 genes for the alpha-ketoglutarate and dihydrolipoyl dehydrogenases indicate that all three enzyme components of the complex are catabolite repressed and subject to positive regulation by the HAP2 and HAP3 proteins.
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PMID:Structure and regulation of KGD2, the structural gene for yeast dihydrolipoyl transsuccinylase. 211 21

The first enzymes of the histidine (hut) and proline degradative pathways, histidase and proline oxidase, could not be induced in Bacillus subtilis cells growing in glucose minimal medium containing a mixture of 16 amino acids. Addition of the 16-amino-acid mixture to induced wild-type cells growing in citrate minimal medium repressed histidase synthesis 25- to 250-fold and proline oxidase synthesis 16-fold. A strain containing a transcriptional fusion of the hut promoter to the beta-galactosidase gene was isolated from a library of Tn917-lacZ transpositions. Examination of histidase and beta-galactosidase expression in extracts of a hut-lacZ fusion strain grown in various media showed that induction, catabolite repression, and amino acid repression of the hut operon were mediated at the level of transcription. This result was confirmed by measurement of the steady-state level of hut RNA in cells grown in various media. Since amino acid repression was not defective in B. subtilis mutants deficient in nitrogen regulation of glutamine synthetase and catabolite repression, amino acid repression appears to be mediated by a system that functions independently of these regulatory systems.
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PMID:Regulation of histidine and proline degradation enzymes by amino acid availability in Bacillus subtilis. 211

Fibrobacter succinogenes S85 is unable to grow with lactose as the source of carbohydrate, although it does exhibit low beta-galactosidase (EC 3.2.1.23) activity. Spontaneous mutants of strain S85 able to grow on lactose were isolated after spreading cells on a chemically defined agar medium with lactose as the carbohydrate source. A lactose-catabolizing isolate, designated L2, exhibited a sodium dodecyl sulfate-polyacrylamide gel electrophoresis protein profile and an immunoblot profile with polyclonal antibodies to whole cells of S85 which were identical to those observed for S85. Strain L2 exhibited both cell-associated and extracellular beta-galactosidase activity with either p-nitrophenyl-beta-D-galactopyranoside or lactose as the substrate. The cell-associated enzyme exhibited the greatest activity in the periplasmic space. Enzyme production was partially inhibited by glucose. The beta-galactosidase was activated by divalent cations and exhibited a pH optimum of 6.5. Analysis of the extracellular culture fluid revealed that glucose derived from the hydrolysis of lactose was used for growth, but galactose was not metabolized further. Cells were unable to take up the lactose analog, methyl-beta-D-thiogalactopyranoside. These data suggest that beta-galactosidase of F. succinogenes L2 cleaves lactose outside the cells and that the glucose released is catabolized while the galactose accumulates in the extracellular culture fluid.
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PMID:Extracellular beta-galactosidase activity of a Fibrobacter succinogenes S85 mutant able to catabolize lactose. 212 6

We investigated the behavior of yeast of the genus Kluyveromyces (K. fragilis 507, K. lactis 29 and K. lactis 10), which grow on lactose as sole carbon source, since they possess an enzyme system for the utilization of this sugar. We determined the beta-galactosidase activity of these strains, grown in the logarithmic phase in media containing glucose and lactose. On addition of 0 to 12% v/v ethanol to cells treated with toluene, we did not observe inhibition of the enzyme in strain 10 of Kluyveromyces lactis, which showed the greatest activity (704.4 Units). Since there exist the possibility of industrial utilization of concentrated whey (4 times), we performed fermentation tests of the three strains, at 30 C, in media containing initial lactose concentrations of 16.5 and 24.5%. After 48 h the residual lactose concentration was practically zero, and the ethanol concentrations had reached 7.60 and 10.10% v/v. It might be expected that the rate of fermentation of a disaccharide such as lactose would be related to the rate of hydrolysis of the sugar, so that strains having a higher rate of enzymatic hydrolysis should show a higher fermentation rate. However, we did not observe such behavior, as strains of Kluyveromyces having enzymatic activities as different as K. lactis 10 (704.4 U) and K. lactis 29 (189.7 U) did not show any great difference in the production of ethanol from lactose.
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PMID:[Beta-galactosidase activity of strains of Kluyveromyces spp. and production of ethanol from lactose]. 212 74


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