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81.
Differential expression of two paralogous genes of Bacillus subtilis encoding single-stranded DNA binding protein 下载免费PDF全文
Lindner C Nijland R van Hartskamp M Bron S Hamoen LW Kuipers OP 《Journal of bacteriology》2004,186(4):1097-1105
The Bacillus subtilis genome comprises two paralogous single-stranded DNA binding protein (SSB) genes, ssb and ywpH, which show distinct expression patterns. The main ssb gene is strongly expressed during exponential growth and is coregulated with genes encoding the ribosomal proteins S6 and S18. The gene organization rpsF-ssb-rpsR as observed in B. subtilis is found in many gram-positive as well as some gram-negative bacteria, but not in Escherichia coli. The ssb gene is essential for cell viability, and like other SSBs its expression is elevated during SOS response. In contrast, the paralogous ywpH gene is transcribed from its own promoter at the onset of stationary phase in minimal medium only. Its expression is ComK dependent and its gene product is required for optimal natural transformation. 相似文献
82.
Hydrophobic labeling of (Na+,K+)-ATPase: further evidence that the beta subunit is embedded in the membrane bilayer 总被引:1,自引:0,他引:1
O-Hexanoyl-3,5-diiodo-N-(4-azido-2-nitro-phenyl)tyramine has been used after photochemical conversion into the reactive nitrene to label (Na+,K+)-ATPase from Bufo marinus toad kidney. Immunochemical evidence indicates that the reagent labels both subunits of the enzyme in partially purified form as well as in microsomal membranes. These results support the view that the glycoprotein subunit, like the catalytic subunit, possesses hydrophobic domains by which it is integrated into the plasma membrane. 相似文献
83.
Membrane fusion of Semliki Forest virus involves homotrimers of the fusion protein. 总被引:17,自引:12,他引:5 下载免费PDF全文
Infection of cells with enveloped viruses is accomplished through membrane fusion. The binding and fusion processes are mediated by the spike proteins in the envelope of the virus particle and usually involve a series of conformational changes in these proteins. We have studied the low-pH-mediated fusion process of the alphavirus Semliki Forest virus (SFV). The spike protein of SFV is composed of three copies of the protein heterodimer E2E1. This structure is resistant to solubilization in mild detergents such as Nonidet P-40 (NP40). We have recently shown that the spike structure is reorganized during virus entry into acidic endosomes (J. M. Wahlberg and H. Garoff, J. Cell Biol. 116:339-348, 1992). The original NP40-resistant heterodimer is dissociated, and the E1 subunits form new NP40-resistant protein oligomers. Here, we show that the new oligomer is represented by an E1 trimer. From studies that use an in vitro assay for fusion of SFV with liposomes, we show that the E1 trimer is efficiently expressed during virus-mediated membrane fusion. Time course studies show that both E1 trimer formation and fusion are fast processes, occurring in seconds. It was also possible to inhibit virus binding and fusion with a monoclonal antibody directed toward the trimeric E1. These results give support for a model in which the E1 trimeric structure is involved in the SFV-mediated fusion reaction. 相似文献
84.
The potential active site of the lipoprotein-specific (type II) signal peptidase of Bacillus subtilis. 总被引:2,自引:0,他引:2
H Tjalsma G Zanen G Venema S Bron J M van Dijl 《The Journal of biological chemistry》1999,274(40):28191-28197
Type II signal peptidases (SPase II) remove signal peptides from lipid-modified preproteins of eubacteria. As the catalytic mechanism employed by type II SPases was not known, the present studies were aimed at the identification of their potential active site residues. Comparison of the deduced amino acid sequences of 19 known type II SPases revealed the presence of five conserved domains. The importance of the 15 best conserved residues in these domains was investigated using the type II SPase of Bacillus subtilis, which, unlike SPase II of Escherichia coli, is not essential for viability. The results showed that only six residues are important for SPase II activity. These are Asp-14, Asn-99, Asp-102, Asn-126, Ala-128, and Asp-129. Only Asp-14 was required for stability of SPase II, indicating that the other five residues are required for catalysis, the active site geometry, or the specific recognition of lipid-modified preproteins. As Asp-102 and Asp-129 are the only residues invoked in the known catalytic mechanisms of proteases, we hypothesize that these two residues are directly involved in SPase II-mediated catalysis. This implies that type II SPases belong to a novel family of aspartic proteases. 相似文献
85.
86.
Lazarevic V Soldo B Médico N Pooley H Bron S Karamata D 《Applied and environmental microbiology》2005,71(1):39-45
Mutations designated gtaC and gtaE that affect alpha-phosphoglucomutase activity required for interconversion of glucose 6-phosphate and alpha-glucose 1-phosphate were mapped to the Bacillus subtilis pgcA (yhxB) gene. Backcrossing of the two mutations into the 168 reference strain was accompanied by impaired alpha-phosphoglucomutase activity in the soluble cell extract fraction, altered colony and cell morphology, and resistance to phages phi29 and rho11. Altered cell morphology, reversible by additional magnesium ions, may be correlated with a deficiency in the membrane glycolipid. The deficiency in biofilm formation in gtaC and gtaE mutants may be attributed to an inability to synthesize UDP-glucose, an important intermediate in a number of cell envelope biosynthetic processes. 相似文献
87.
88.
Biodiversity-based identification and functional characterization of the mannose-specific adhesin of Lactobacillus plantarum 下载免费PDF全文
Pretzer G Snel J Molenaar D Wiersma A Bron PA Lambert J de Vos WM van der Meer R Smits MA Kleerebezem M 《Journal of bacteriology》2005,187(17):6128-6136
Lactobacillus plantarum is a frequently encountered inhabitant of the human intestinal tract, and some strains are marketed as probiotics. Their ability to adhere to mannose residues is a potentially interesting characteristic with regard to proposed probiotic features such as colonization of the intestinal surface and competitive exclusion of pathogens. In this study, the variable capacity of 14 L. plantarum strains to agglutinate Saccharomyces cerevisiae in a mannose-specific manner was determined and subsequently correlated with an L. plantarum WCFS1-based genome-wide genotype database. This led to the identification of four candidate mannose adhesin-encoding genes. Two genes primarily predicted to code for sortase-dependent cell surface proteins displayed a complete gene-trait match. Their involvement in mannose adhesion was corroborated by the finding that a sortase (srtA) mutant of L. plantarum WCFS1 lost the capacity to agglutinate S. cerevisiae. The postulated role of these two candidate genes was investigated by gene-specific deletion and overexpression in L. plantarum WCFS1. Subsequent evaluation of the mannose adhesion capacity of the resulting mutant strains showed that inactivation of one candidate gene (lp_0373) did not affect mannose adhesion properties. In contrast, deletion of the other gene (lp_1229) resulted in a complete loss of yeast agglutination ability, while its overexpression quantitatively enhanced this phenotype. Therefore, this gene was designated to encode the mannose-specific adhesin (Msa; gene name, msa) of L. plantarum. Domain homology analysis of the predicted 1,000-residue Msa protein identified known carbohydrate-binding domains, further supporting its role as a mannose adhesin that is likely to be involved in the interaction of L. plantarum with its host in the intestinal tract. 相似文献
89.
Isolation of BM mesenchymal stem cells by plastic adhesion or negative selection: phenotype, proliferation kinetics and differentiation potential 总被引:14,自引:0,他引:14
Tondreau T Lagneaux L Dejeneffe M Delforge A Massy M Mortier C Bron D 《Cytotherapy》2004,6(4):372-379
BACKGROUND: BM mesenchymal stem cells (MSC) have the capacity for renewal and the potential to differentiate into multiple tissues. In this study, we compared different enrichment methods to obtain MSC from BM. METHODS: Three different methods were compared with a view to obtaining MSC more rapidly from BM: negative selection (RosetteSep and MACS) and plastic adhesion. The three cell fractions were grown in complete alpha-minimum essential medium in order to evaluate their proliferative capacity, their phenotype during culture and their potential to differentiate into adipocytes, osteocytes and chondrocytes. Identification of MSC was performed by immunofluorescence with putative mesenchymal markers SH2 and SH3 but also with hematopoietic markers. RESULTS: After negative selection, only 1+/-0.2% and 2.9+/-0.8% of cells were recovered from BM with the RosetteSep and MACS methods, respectively. However, negative depletion permitted a homogeneous population of MSC, with more than 90% SH2+ and SH3+ cells, to be obtained rapidly and in large quantities after 10 days of culture. Similar homogeneity was observed after three passages if the plastic adhesion was used as selection method and after an average of 25-30 days of culture. Different levels of MSC maturity were also suggested by the variable level expression of Stro-1. DISCUSSION: Depleting selection by RosetteSep may represent an easy method of obtaining MSC rapidly from BM with the aim of potential therapeutic use. 相似文献
90.
Thomas D Bron P Ranchy G Duchesne L Cavalier A Rolland JP Raguénès-Nicol C Hubert JF Haase W Delamarche C 《Biochimica et biophysica acta》2002,1555(1-3):181-186
In the light of the recently published structure of GlpF and AQP1, we have analysed the nature of the residues which could be involved in the formation of the selectivity filter of aquaporins, glycerol facilitators and aquaglyceroporins. We demonstrate that the functional specificity for major intrinsic protein (MIP) channels can be explained on one side by analysing the polar environment of the residues that form the selective filter. On the other side, we show that the channel selectivity could be associated with the oligomeric state of the membrane protein. We conclude that a non-polar environment in the vicinity of the top of helix 5 could allow aquaglyceroporins and GlpF to exist as monomers within the hydrophobic environment of the membrane. 相似文献