Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.2.1.23 (beta-galactosidase)
 14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mice exposed to radiation-attenuated cercariae of Schistosoma mansoni are highly resistant to challenge infection, and sera from these mice can confer partial resistance when transferred to naive recipients. These sera recognize Ag present in schistosomular and adult worms, among them an Ag of 200 kDa. A cDNA encoding a 62-kDa portion of this Ag was cloned; the deduced amino acid sequence of this cDNA clone shares homology with myosins of other species. To assess the immunoprophylactic potential, we carried out vaccination trials in mice using the recombinant polypeptide expressed as a fusion protein with beta-galactosidase presented in the form of proteosome complexes with the outer membrane protein of meningococcus. The level of protection achieved was 32%, and this level could be increased to 75% by removal of those amino acids included in the fusion protein that were derived from the vector to yield a polypeptide, designated rIrV-5. A similar level of protection was achieved when mice were immunized with the same dose of rIrV-5 in the form of protein complexes but without outer membrane protein, suggesting that protection did not require the use of adjuvant. However, at least three immunizations were necessary to achieve protection. Using mAb and sera from mice vaccinated with rIrV-5, we demonstrated that the native protein recognized by antibodies against rIrV-5 is a 200-kDa protein that is expressed on the surface of newly transformed schistosomula. The protection achieved with rIrV-5 in mice encourages additional studies of its potential as a vaccine candidate for the prevention of schistosomiasis.
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PMID:Induction of protective immunity in mice using a 62-kDa recombinant fragment of a Schistosoma mansoni surface antigen. 143 Nov 31

The czcR gene, one of the two control genes responsible for induction of resistance to Co2+, Zn2+, and Cd2+ (czc system) in the Alcaligenes eutrophus plasmid pMOL30, was cloned and characterized. The 1,376-bp sequence upstream of the czcCBAD structural genes encodes a 41.4-kDa protein, the czcR gene product, transcribed in the opposite direction of that of the czcCBAD genes. The putative CzcR polypeptide (355 amino acid residues) contains 11 cysteine and 14 histidine residues which might form metal cation-binding sites. A czcC::lacZ reporter gene translational fusion was constructed, inserted into plasmid pMOL30 in A. eutrophus, and expressed under the control of CzcR. Zn2+, Co2+, and Cd2+, as well as Ni2+, Cu2+, Hg2+, and Mn2+ and even Al3+, served as inducers of beta-galactosidase activity. Besides the CzcR protein, the membrane-bound CzcD protein was essential for induction of czc. The CzcR and CzcD proteins display no sequence similarity to two-component regulatory systems of a sensor and a response activator type; however, CzcD has 34% identity with the ZRC-1 protein, which mediates zinc resistance in Saccharomyces cerevisiae (A. Kamizomo, M. Nishizawa, Y. Teranishi, K. Murata, and A. Kimura, Mol. Gen. Genet. 219:161-167, 1989).
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PMID:CzcR and CzcD, gene products affecting regulation of resistance to cobalt, zinc, and cadmium (czc system) in Alcaligenes eutrophus. 145 58

The yellow (y) gene of Drosophila melanogaster is required for the pigmentation of larval and adult cuticle structures. The deduced y protein sequence includes two putative N-linked glycosylation sites and a putative signal peptide, suggesting that it might be a secreted molecule. Consistent with the characteristics of a secreted protein, our in vitro translation studies using RNA synthesised from the y cDNA demonstrate that the nascent y polypeptide is a preprotein that cotranslationally translocates into the endoplasmic reticulum (ER) membrane and becomes glycosylated. The N-terminal peptide is cleaved from the preprotein between the two alanine residues at positions 21 and 22, to release the final product into the lumen of the ER. Antibodies raised against the y polypeptide detect the protein starting at 13 h post-fertilization in epidermal cells and in the cuticle structures secreted by them that later become pigmented; in addition, yellow protein is detected in the cuticle structures associated with Keilin's organs. The embryonic beta-galactosidase staining pattern of a transgene, bearing a construct in which expression of the lacZ gene is driven by the y promoter, is also described and is similar to that of the y protein. Our results indicate that the y gene product is an apically secreted protein which becomes an immobilised structural component of the pigmented cuticle.
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PMID:Apical secretion and association of the Drosophila yellow gene product with developing larval cuticle structures during embryogenesis. 146 12

Influence of increased arginine concentrations of tRNA's corresponding to rare codons AGG and AGA was studied in the model system constructed earlier. The model system is a chimeric gene consisting of CAT gene fragment, part of the gene encoding for alpha-domain of beta-galactosidase E. coli and a series of synthetic inserts enriched with codons AGG and AGA. In order to increase the intracellular tRNA concentration the natural gene of AGA-specific tRNA and the artificial gene of AGG-specific tRNA were cloned in plasmid under the control of p15A ori compatible with co1EI ori and used for maintaining the model gene. It was shown that the artificial AGG-specific tRNA gene produces a functionally active tRNA. A steep rise in the synthesis of polypeptide encoded by the model template containing rare codons was demonstrated when the genes of tRNAs recognizing these codons were propagated in the multicopy plasmid. It was shown that AGA-specific tRNA efficiently translates both AGA and AGG codons while AGG-specific tRNA - only AGG codons.
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PMID:[The effect of intracellular concentrations of tRNA, corresponding to the rare arginine codons AGG and AGA, on the gene expression in Escherichia coli]. 147 Jan 74

GM1 ganglioside beta-galactosidase (beta-Gal) is deficient in the autosomal recessive disorder GM1 gangliosidosis. A portion of the enzyme occurs in a complex with neuraminidase and an additional glycoprotein, protective protein, but the nature of the interactions conferring the stability of the complex is unknown. Affinity chromatography of beta-Gal on p-aminophenylthiogalactose-Sepharose (PATG-Sepharose) at pH 4.3, the pH optimum of beta-Gal, resulted in a 260-fold enrichment of beta-Gal, but the major protein in the fraction had an M(r) value of 74,000. Affinity chromatography on PATG-Sepharose at pH 5.2 showed substantial enrichment (4000-fold) of beta-Gal, and the mature form of the enzyme (M(r) 64,000) was the major protein in the preparation. Using h.p.l.c. molecular-sieve chromatography, we found that about 15% of the total beta-Gal occurred in a high-M(r) form (greater than 600,000), the presumptive complex, with 85% eluting at M(r) 150,000, suggestive of a dimer. This distribution was independent of both high (60 mg/ml) and low (5 mg/ml) protein concentration and the pH (pH 4.3 or 5.2) of the sample applied to the column. Furthermore, incubation for 90 min at 37 degrees C, conditions which had previously been suggested as optimal for formation of the complex, had no effect on this distribution. Further fractionation by anion-exchange chromatography and a second affinity column step yielded a beta-Gal preparation that contained a single polypeptide chain (M(r) 64,000), was devoid of neuraminidase and protective protein (absent carboxypeptidase activity), and when injected into rabbits gave rise to monospecific rabbit antisera. We conclude that the protein composition of the complex is variable (i.e. it is different when isolated at pH 4.3 and 5.2) and that the amount of beta-Gal tightly associated with the complex constitutes a small fraction of the total beta-Gal activity. The more prevalent form of the enzyme is a beta-Gal homodimer that is stable and devoid of either neuraminidase activity or protective protein.
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PMID:Human placental beta-galactosidase. Characterization of the dimer and complex forms of the enzyme. 149 20

The LAC4 gene encoding the beta-galactosidase (beta Gal) of the yeast, Kluyveromyces lactis, was cloned on a 7.2-kb fragment by complementation of a lacZ-deficient Escherichia coli strain. The nucleotide sequence of the structural gene, with 42 bp and 583 bp of the 5'- and 3'-flanking sequences, respectively, was determined. The deduced amino acid (aa) sequence of the K. lactis beta Gal predicts a 1025-aa polypeptide with a calculated M(r) of 117618 and reveals extended sequence homologies with all the published prokaryotic beta Gal sequences. This suggests that the eukaryotic beta Gal is closely related, evolutionarily and structurally, to the prokaryotic beta Gal's. In addition, sequence similarities were observed between the highly conserved N-terminal two-thirds of the beta Gal and the entire length of the beta-glucuronidase (beta Glu) polypeptides, which suggests that beta Glu is clearly related, structurally and evolutionarily, to the N-terminal two-thirds of the beta Gal. The structural analysis of the beta Gal alignment, performed by mean secondary structure prediction, revealed that most of the invariant residues are located in turn or loop structures. The location of the invariant residues is discussed with respect to their accessibility and their possible involvement in the catalytic process.
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PMID:Sequence of the Kluyveromyces lactis beta-galactosidase: comparison with prokaryotic enzymes and secondary structure analysis. 151 85

In Azotobacter chroococcum the hydrogenase structural genes (hupSL) cover about 2.8 kb of a 15-kb region associated with hydrogen-uptake (Hup) activity. Two other genes in this region, hupD and hupE, were located 8.9 kb downstream of hupL and were shown to be essential for hydrogenase activity by insertion mutagenesis. A fragment of DNA beginning 3.4 kb downstream of hupL was able to complement the hupE mutant, supporting earlier evidence for a promoter downstream of hupSL. Hybridization experiments showed that hupD and hupE share some similarity with a region of Alcaligenes eutrophus DNA which is apparently involved in the formation of catalytically active hydrogenase. The hupD gene encodes a 379-amino acid, 41.4-kDa polypeptide while hupE codes for a 341-amino acid, 36.1-kDa product. The predicted amino acid sequences of the hupD and hupE genes are homologous to the Escherichia coli hypD and hypE gene products, respectively. A polar mutation in hupD had no effect on beta-galactosidase activity in a strain also carrying a hupL-lacZ fusion, indicating that hupD and hupE are probably not involved in regulating hydrogenase structural gene expression.
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PMID:Characterization of two genes (hupD and hupE) required for hydrogenase activity in Azotobacter chroococcum. 152 70

The a subunit is a membrane component of the F1F0-ATP synthase from Escherichia coli. Regions of a which appear important for membrane insertion or F0 assembly have been identified by analysis of both deletion mutants and fusion proteins which link the mutant a subunits to alkaline phosphatase. This analysis suggests the hydrophilic, amino-terminal domain of a is required for proper membrane targeting and/or insertion of the nascent polypeptide. In addition, the subcellular fractionation of four different a subunit-beta-galactosidase fusion proteins suggests this domain is localized to the periplasm, in agreement with a proposed topological model of the protein (Lewis, M.J., Chang, J.A., and Simoni, R.D. (1990) J. Biol. Chem. 265, 10541-10550). Deletions within the next three putative loops of a appear to have no significant effect on membrane targeting or insertion. Rather, they seem to interfere with the subsequent assembly of a functional enzyme.
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PMID:Deletions in hydrophilic domains of subunit a from the Escherichia coli F1F0-ATP synthase interfere with membrane insertion or F0 assembly. 153 41

To produce parvovirus B19 antigen for diagnostic purposes, partially overlapping segments covering the genes encoding the viral structural proteins VP1 and VP2 were cloned into expression vectors. The constructs were induced in Escherichia coli, resulting in the expression of beta-galactosidase fusion proteins. In immunoblotting experiments with sera from patients with erythema infectiosum, immunoglobulin G (IgG) and IgM antibodies bound to a single polypeptide of 235 amino acids at the N terminus of VP1. The DNA fragment encoding this polypeptide was amplified by the polymerase chain reaction and cloned into an expression vector. The viral capsid antigen expressed in E. coli was purified by preparative agarose gel electrophoresis and used in IgG and IgM solid-phase enzyme immunoassays. Comparison with reference gamma- and mu-capture radioimmunoassays using whole virus antigen showed that these antibody tests are suitable for the serodiagnosis of human infections caused by parvovirus B19.
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PMID:Prokaryotic expression of a VP1 polypeptide antigen for diagnosis by a human parvovirus B19 antibody enzyme immunoassay. 153 97

To investigate the mechanism of degradation of proteins localized in the nucleus, we constructed genes encoding modified Escherichia coli beta-galactosidases and expressed them in mammalian COS cells. When the beta-galactosidase with a nuclear localization signal from SV 40 T antigen was expressed in COS cells, the beta-galactosidase polypeptide was localized in the nuclei and was stable for at least 4 h. When 16 amino acid residues were deleted from the C-terminal end, the beta-galactosidase polypeptide was also observed in the nuclei but it was degraded rapidly, with a half-life of 1.6 h. When the nuclear localizing signal was replaced with a mutant sequence, which lacks nuclear targeting activity, the beta-galactosidase polypeptides were present throughout the cells rather than in the nuclei. The beta-galactosidase polypeptide with the complete C terminus was stable and the cytoplasmic truncated polypeptide was degraded at the same rate as the nuclear C terminus truncated polypeptide. The beta-galactosidase polypeptides with the complete C terminus were present as a tetramer as reported previously and had beta-galactosidase activity, but the C terminus truncated polypeptides were present as monomer and had no enzyme activity, indicating that C terminus truncated beta-galactosidase is malfolded. Together, the results suggest that a nuclear-localized malfolded protein is degraded as rapidly as a cytoplasmic malfolded protein.
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PMID:Degradation of a nuclear-localized protein in mammalian COS cells, using Escherichia coli beta-galactosidase as a model protein. 157 46


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