EC:3.2.1.23 - FACTA Search

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)

In Gram-negative bacteria, including Rhodobacter capsulatus, the membrane protein CycH acts as a putative apocytochrome chaperone during the biogenesis of c-type cytochromes. CycH-null mutants are unable to produce various c-type cytochromes and sustain photosynthetic (Ps) growth that requires the cytochromes c1 and c2 or cy. However, Ps+ revertants are readily obtained only on minimal, but not on enriched, medium. To obtain further information about the biogenesis of c-type cytochromes, these suppressor mutants were studied. Complementation of a CycH-null mutant for Ps+ growth by a genomic library constructed using DNA from a Ps+ suppressor yielded a plasmid carrying the ccl1-2 operon, the products of which, Ccl1 and Ccl2, are also involved in the biogenesis of c-type cytochromes. DNA sequence analysis revealed that the complementing activity resulted from a single point mutation, G488A, located upstream of the coding region of ccl1-2. This mutation changed the -35 region of the ccl1-2 promoter from TTGGCC to TTGACC, improving its similarity to the consensus sequence of Escherichia colisigma 70-dependent promoters. That the G488A mutation indeed enhanced transcription of ccl1-2 was demonstrated by the use of reporter gene fusions. An appropriate ccl1-2::lacZ transcriptional-translational fusion carrying the G488A mutation produced in R. capsulatus over 30-fold higher beta-galactosidase activity than a wild-type construct. Immunoblot analyses confirmed that Ccl1 and Ccl2 were overproduced in the Ps+ suppressors. Deletion of either ccl1 or ccl2, from the ccl1-2 cluster carrying the G488A mutation abolished the complementing ability, indicating that overexpression of both ccl1 and ccl2 was required to confer the Ps+ phenotype on a CycH-null mutant. These findings therefore demonstrate that, during R. capsulatus growth on minimal medium, the requirement for CycH in c-type cytochrome biogenesis could be bypassed by overexpressing the ccl1-2 operon.
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PMID:Overexpression of ccl1-2 can bypass the need for the putative apocytochrome chaperone CycH during the biogenesis of c-type cytochromes. 1242 12

Whereas a variety of two-hybrid systems are available to measure the interaction of soluble proteins, related methods are significantly less developed for the measurement of membrane protein interactions. Here we present a two-hybrid system to follow the heterodimerization of membrane proteins in the Escherichia coli inner membrane. The method is based on the repression of a reporter gene activity by two LexA DNA binding domains with different DNA binding specificities. When coupled to transmembrane domains, heterodimeric association is reported by repression of beta-galactosidase synthesis. The LexA-transmembrane chimeric proteins were found to correctly insert into the membrane, and reproducible signals were obtained measuring the homodimerization as well as heterodimerization of wild-type and mutant glycophorin A transmembrane helices. The GALLEX data were compared with data recently gained by other methods and discussed in the general context of heteroassociation of single TM helices. Additionally, the formation of heterodimers between the TM domains of the alpha(4) and the beta(7) integrin subunits were tested. The results show that both homo- and heterodimerization of membrane proteins can be measured accurately using the GALLEX system.
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PMID:GALLEX, a measurement of heterologous association of transmembrane helices in a biological membrane. 1244 30

Double-stranded DNA phages require two proteins for efficient host lysis: the endolysin, a muralytic enzyme, and the holin, a small membrane protein. In an event that defines the end of the vegetative cycle, the lambda holin S acts suddenly to permeabilize the membrane. This permeabilization enables the R endolysin to attack the cell wall, after which cell lysis occurs within seconds. A C-terminal fusion of the R endolysin with full-length beta-galactosidase (beta-Gal) was tested for lytic competence in the context of the late-gene expression system of an induced lambda lysogen. Under these conditions, the hybrid R-beta-Gal product, an active tetrameric beta-Gal greater than 480 kDa in mass, was fully functional in lysis mediated by the S holin. Western blot analysis demonstrated that the lytic competence was not due to the proteolytic release of the endolysin domain of the R-beta-Gal fusion protein. The ability of this massive complex to be released by the S holin suggests that S causes a generalized membrane disruption rather than a regular oligomeric membrane pore. Similar results were obtained with an early lysis variant of the S holin and also in parallel experiments with the T4 holin, T, in an identical lambda context. However, premature holin lesions triggered by depolarization of the membrane were nonpermissive for the hybrid endolysin, indicating that these premature lesions constituted less-profound damage to the membrane. Finally, a truncated T holin functional in lysis with the endolysin is completely incompetent for lysis with the hybrid endolysin. A model for the formation of the membrane lesion within homo-oligomeric rafts of holin proteins is discussed.
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PMID:Sizing the holin lesion with an endolysin-beta-galactosidase fusion. 1253 53

The multi-stage cell model of the nasopharyngeal carcinoma development in vitro by Epstein-Barr virus transformation is beneficial for the elucidation of the mechanism of nasopharyngeal cancer. To observe the biological changes of primary human nasopharyngeal epithelial cells in early phase of immortalization, in this study, we have detected the morphological changes and the expression profile of senescence-associated beta-galactosidase (SA-beta-Gal) in primary culture. In addition, the expression of EB virus latent membrane protein 1 (LMP1) and the growth curve of primary cells were also detected. Our results showed a low percentage of cells infected with EB virus expressing SA-beta-Gal activity at the late primary culture. In morphology, the cells also formed multilayer foci, and the cell population doubling time was showed. These results demonstrated that the nasopharyngeal epithelial cells by EB virus infection have passed through the senescence and entered the early phase of immortalization. These cells have some of the transformed characteristics. Our results provided the data for further study on the mechanism of immortalization and the establishment of human nasopharyngeal epithelial cell line.
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PMID:[Observation of the biological characterizations of nasopharyngeal epithelial cells by EB virus infection in early phase of immortalization]. 1254

3-hydroxy-3-methylglutaryl coenzyme A reductase (HMGR) is the rate-limiting enzyme in the cholesterol biosynthetic pathway. This endoplasmic reticulum membrane protein contains a cytosolic catalytic domain and a transmembrane domain with eight membrane spans that are necessary for sterol-accelerated degradation. Competition experiments showed that wild-type transmembrane domains of HMGR and sterol regulatory element binding protein cleavage-activating protein (SCAP) blocked sterol-accelerated degradation of intact HMGR and HMGal, a model protein containing the membrane domain of HMGR linked to Escherichia coli beta-galactosidase. However, mutant transmembrane domains of HMGR and SCAP whose sterol-sensing functions were abolished did not inhibit sterol-accelerated degradation of HMGR and HMGal. In addition, our mutagenesis studies on HMGal indicated that four Phe residues conserved in span 6 of HMGR and the sterol-sensing domains of other sterol-related proteins are required for the regulated degradation of HMGR. These results suggest that HMGR and SCAP compete for binding to a sterol-regulated regulator protein, and this binding may need the four Phe residues.
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PMID:The inhibition of degradation of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase by sterol regulatory element binding protein cleavage-activating protein requires four phenylalanine residues in span 6 of HMG-CoA reductase transmembrane domain. 1278 75

Brucella abortus cyclic glucan synthase (Cgs) is a 316-kDa (2,831-amino-acid) integral inner membrane protein that is responsible for the synthesis of cyclic beta-1,2-glucan by a novel mechanism in which the enzyme itself acts as a protein intermediate. B. abortus Cgs uses UDP-glucose as a sugar donor and has the three enzymatic activities necessary for synthesis of the cyclic polysaccharide (i.e., initiation, elongation, and cyclization). Cyclic glucan is required in B. abortus for effective host interaction and complete expression of virulence. To gain further insight into the structure and mechanism of action of B. abortus Cgs, we studied the membrane topology of the protein using a combination of in silico predictions, a genetic approach involving the construction of fusions between the cgs gene and the genes encoding alkaline phosphatase (phoA) and beta-galactosidase (lacZ), and site-directed chemical labeling of lysine residues. We found that B. abortus Cgs is a polytopic membrane protein with the amino and carboxyl termini located in the cytoplasm and with six transmembrane segments, transmembrane segments I (residues 419 to 441), II (residues 452 to 474), III (residues 819 to 841), IV (residues 847 to 869), V (residues 939 to 961), and VI (residues 968 to 990). The six transmembrane segments determine four large cytoplasmic domains and three very small periplasmic regions.
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PMID:Membrane topology analysis of cyclic glucan synthase, a virulence determinant of Brucella abortus. 1548 31

Pseudomonas aeruginosa is an important opportunistic pathogen that can cause chronic and often life-threatening infections of the respiratory tract, particularly in individuals with cystic fibrosis (CF). Because infections with P. aeruginosa remain the major cause of the high morbidity and mortality of CF, a vaccine against P. aeruginosa would be very useful for preventing this disorder. The outer membrane protein F (OprF) of P. aeruginosa is a promising vaccine candidate and various B cell epitopes within OprF have been identified. Given that adenovirus (Ad) vectors have strong immunogenic potential and can function as adjuvants for genetic vaccines, the present study evaluates the immunogenic and protective properties of a novel replication-deficient Ad vector in which the Ad hexon protein was modified to include a 14-amino acid epitope of P. aeruginosa OprF (Epi8) in loop 1 of the hypervariable region 5 of the hexon (AdZ.Epi8). Immunization of C57BL/6 mice with AdZ.Epi8 resulted in detectable serum anti-P. aeruginosa and anti-OprF humoral responses. These responses were haplotype dependent, with higher serum anti-OprF titers in CBA mice than in BALB/c or C57BL/6 mice. AdZ.Epi8 induced Epi8-specific IFN-gamma-positive CD4 and CD8 T cell responses and resulted in protection against a lethal pulmonary challenge with agar-encapsulated P. aeruginosa. Importantly, repeated administration of AdZ.Epi8 resulted in boosting of the anti-OprF humoral and anti-Epi8 cellular response, whereas no boosting effect was present in the response against the transgene beta-galactosidase. These observations suggest that Ad vectors expressing pathogen epitopes in their capsid will protect against an extracellular pathogen and will allow boosting of the epitope-specific humoral response with repeated administration, a strategy that should prove useful in developing Ad vectors as vaccines where humoral immunity will be protective.
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PMID:Protection against P. aeruginosa with an adenovirus vector containing an OprF epitope in the capsid. 1584 Dec 17

The UL10 and UL49.5 genes of avian infectious laryngotracheitis virus (ILTV) encode putative envelope proteins which are conserved in Alpha, Beta, and Gammaherpesvirinae. Many of the corresponding gene products have been shown to be glycosylated and to form heterodimeric protein complexes with each other. Unlike the homologous gM proteins of other herpesviruses, the UL10 protein of ILTV is not detectably glycosylated [Fuchs, W., Mettenleiter, T.C., 1999. DNA sequence of the UL6 to UL20 genes of infectious laryngotracheitis virus and characterization of the UL10 gene product as a nonglycosylated and nonessential virion protein. J. Gen. Virol. 80, 2173-2182]. Using a monospecific antiserum, we now identified the UL49.5 gene product of ILTV as an O-glycosylated membrane protein (gN). Correct processing of gN was shown to depend on the presence of the UL10 protein. Both gN and UL10 could be co-immunoprecipitated from ILTV-infected cell lysates with antisera against either of the proteins, indicating stable protein-protein interactions. For functional analysis parts of the UL10 and UL49.5 open reading frames were deleted from the ILTV genome, and replaced by a beta-galactosidase expression cassette. The resulting virus mutants were isolated and propagated in non-complementing chicken cells, which demonstrated that the UL10 and UL49.5 genes are not essential for in vitro replication of ILTV.
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PMID:The nonessential UL49.5 gene of infectious laryngotracheitis virus encodes an O-glycosylated protein which forms a complex with the non-glycosylated UL10 gene product. 1602 5

Protein antigens have been covalently linked randomly to surface proteins on immature dendritic cells (DC). This has been achieved under physiological conditions using a heterobifunctional reagent that couples antigens to free thiol groups expressed on DC surface proteins. This results in a significant increase in the amount of antigen that is bound to DC, and the antigen/membrane protein complexes that are formed are rapidly internalized. DC, loaded covalently with either beta-galactosidase (beta-gal) or a tumor-associated immunoglobulin (Ig) when injected into mice, induce a beta-gal- or Ig-specific T cell response, and a protective anti-tumor immunity for tumors expressing either beta-gal or the targeted Ig. This response is shown here to be significantly greater than that which is induced by DC that are loaded with these antigens via the conventional antigen pulse protocol. These results establish a novel, safe, and viable approach of enhancing the effectiveness of DC-based vaccination strategies for B cell lymphoma.
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PMID:B cell tumor vaccine enhanced by covalent attachment of immunoglobulin to surface proteins on dendritic cells. 1618 29

Unlike lysosomal soluble proteins, few lysosomal membrane proteins have been identified. Rat liver lysosomes were purified by centrifugation on a Nycodenz density gradient. The most hydrophobic proteins were extracted from the lysosome membrane preparation and were identified by MS. We focused our attention on a protein of approx. 40 kDa, p40, which contains seven to ten putative transmembrane domains and four lysosomal consensus sorting motifs in its sequence. Knowing that preparations of lysosomes obtained by centrifugation always contain contaminant membranes, we combined biochemical and morphological methods to analyse the subcellular localization of p40. The results of subcellular fractionation of mouse liver homogenates validate the lysosomal residence of p40. In particular, a density shift of lysosomes induced by Triton WR-1339 similarly affected the distributions of p40 and beta-galactosidase, a lysosomal marker protein. We confirmed by fluorescence microscopy on eukaryotic cells transfected with p40 or p40-GFP (green fluorescent protein) constructs that p40 is localized in lysosomes. A first molecular characterization of p40 in transfected Cos-7 cells revealed that it is an unglycosylated protein tightly associated with membranes. Taken together, our results strongly support the hypothesis that p40 is an authentic lysosomal membrane protein.
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PMID:Intracellular localization of p40, a protein identified in a preparation of lysosomal membranes. 1636 39

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