- Volume 141, Issue 10, 1995
Volume 141, Issue 10, 1995
- Physiology And Growth
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A gene (sleC) encoding a spore-cortex-lytic enzyme from Clostridium perfringens S40 spores; cloning, sequence analysis and molecular characterization
More LessSummary: Antiserum was raised against a 31 kDa spore-cortex-lytic enzyme, which is released during germination of Clostridium perfringens S40 spores. Western blotting of dormant spore and vegetative cell fractions separated by SDS-PAGE indicated that the 31 kDa enzyme is spore-specific and that the enzyme in the dormant spore exists as a 36 kDa protein which has no cortex-lytic activity. A gene encoding the 31 kDa enzyme, sleC, was cloned into Escherichia coli using a synthetic oligonucleotide as a hybridization probe and the nucleotide sequence of the entire gene was determined. The N-terminal amino acid sequence of the 36 kDa protein was found in this reading frame, confirming that the 36 kDa protein is a pro-form of the 31 kDa enzyme. The deduced amino acid sequence indicated that the 31 kDa enzyme is produced as a precursor, comprising three portions; an N-terminal prepro-sequence (114 amino acid residues), a pro-sequence (35 amino acid residues) and a mature enzyme (289 amino acid residues). It is suggested that the 36 kDa pro-enzyme is non-covalently attached to the exterior of the cortex layer, and that the pro-form is processed to release the active enzyme during germination.
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Glycosylation of the flagellin of the polar flagellum of Azospirillum brasilense, a Gram-negative nitrogen-fixing bacterium
More LessSummary: The glycosylation of the flagellin of the polar flagellum of Azospirillum brasilense Sp7 is demonstrated in several ways: (1) by a decrease in apparent M r after chemical deglycosylation; (2) by sugar staining after SDS-PAGE; (3) by use of a sugar-specific monoclonal antibody in immunogold labelling coupled with transmission electron microscopy. In addition, two mutant flagellins are described; they differ in glycan composition when compared with the wild-type. The glycosylation of a bacterial flagellin is unusual and has to be taken into account in the proposed model for the assembly of the flagellar filament.
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The isolation of isoagathenediol: a new tricyclic diterpene from the lipids of Rhodospirillum rubrum
More LessSummary: A tricyclic diterpene, isoagathenediol, has been isolated from the lipid fraction of the photosynthetic non-sulphur bacterium Rhodospirillum rubrum. The compound was present in trace amounts and its structure was determined by NMR spectroscopy and mass spectrometry. Isoagathenediol is a new natural product and may function as a membrane fluidity modulator. Five other bacterial species have also been screened for the presence of this compound, but the diterpene was detected only in extracts derived from R. rubrum. As tricyclic diterpene fossils are readily detected in oil and shale samples, the isolation of isoagathenediol has indicated the biological origin of these fossils.
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Glucose-induced, cyclic-AMP-independent signalling pathway for activation of neutral trehalase in the fission yeast Schizosaccharomyces pombe
More LessSummary: The addition of glucose to derepressed cells of Schizosaccharomyces pombe provokes a cAMP signal and activation of the cytoplasmic neutral trehalase. This transduction pathway does not require functional RAS protein since RAS1-disrupted cells exhibited a glucose response similar to that shown by control cells. Treatment of activated trehalase by alkaline phosphatase resulted in enzyme deactivation suggesting that trehalase may be modulated in vivo by reversible phosphorylation through cAMP-dependent protein kinase (PKA1). However, the addition of glucose to derepressed growing cells of Schiz. pombe lacking the catalytic subunit of protein kinase A (?pka1::URA4+ strains) induced stimulation of trehalase as well as phosphorylation of the enzyme protein. This glucose-induced response was absent in PKA1-deficient cells from resting cultures. Addition of exogenous cAMP activated trehalase in normal growing cells but failed to produce any effect on trehalase in PKA1-disrupted growing cells. These results confirm the occurrence of a PKA1-dependent pathway for trehalase activation and imply the existence of another glucose-induced phosphorylation pathway capable of activating trehalase during growth by a distinct, cAMP-independent protein kinase. At least one of the upstream components playing a role in the transduction of this alternative signal is either absent or inactive in cells from stationary phase and sporulated cultures. Cells harbouring the disrupted PKA1 gene responded also to a heat-shock signal by increasing trehalase activity, thus revealing that this enzyme may be a target common to various signalling pathways in the fission yeast.
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Gelatin fragments block adherence of Candida albicans to extracellular matrix proteins
More LessSummary: The adherence of Candida albicans to extracellular matrix proteins may be a critical step in the pathogenesis of candidiasis. Yeast cell adherence to type I and IV collagen, fibronectin and laminin was blocked by peptide fragments from denatured type I collagen (gelatin). Gelatin fragments were obtained by digestion of the reduced protein with trypsin or CNBr. The fragments did not have antifungal properties, presumably inhibiting adherence by blocking receptors (adhesins) on the surface of the fungus. A 10-mer (GQRGVVGLPG) fashioned from the a-1 chain of type I collagen reduced adherence by 68%. However, a gelatin peptide possessing 47 amino acids reduced fungal adherence to type I collagen by 100%. Peptides derived from the biocompatible protein gelatin, therefore, may have a potential role in reducing the adherence of the fungus to host proteins.
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Oestrogen-binding protein in Candida albicans: antibody development and cellular localization by electron immunocytochemistry
More LessSummary: Candida albicans, the most common fungal pathogen of humans, possesses an oestrogen (estrogen)-binding protein (EBP) that binds oestrogens with high affinity and specificity. The gene that encodes the EBP (CaEBP1) has been cloned and sequenced and shown to be structurally related to the old yellow enzyme from Saccharomyces cerevisiae. Here, we report the purification and the subcellular localization of the EBP from C. albicans. Using ion-exchange chromatography and an oestradiol affinity column, the EBP was purified from a strain of C. albicans (strain 422) which was selected because it constitutively expressed elevated levels of the binding protein. The purified protein displayed a subunit molecular mass of approximately 46 kDa when examined by denaturing gel electrophoresis, which is consistent with the size estimated from the sequence of the cloned CaEBP1 gene. An immunoaffinity column, prepared using a polyclonal antisera generated against EBP, depleted the oestrogen-binding activity from C. albicans cell extracts. Western blot analysis showed that the antisera specifically recognized the EBP from C. albicans. The antibodies also recognized the protein when the cloned CaEBP1 gene was expressed in S. cerevisiae and did not cross react with S. cerevisiae proteins. Using electron microscopy and antigen detection by immunogold staining, the EBP appeared to be primarily associated with vacuoles. However, when overexpressed in S. cerevisiae, the EBP was found diffusely throughout the cell. In conclusion, the EBP has been purified from C. albicans and antibodies generated against the protein were used to demonstrate that EBP is found associated with vacuoles in C. albicans.
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Unsaturated fatty acids are the active molecules of a glucan-synthase-inhibitory fraction isolated from entomophthoralean protoplasts
More LessSummary: A few entomophthoralean species are able to multiply in a protoplast form. The polysaccharide synthases which synthesize the cell wall are inactivated in this form. An inhibitor of one of the key enzymes of wall synthesis, glucan synthase, was isolated from entomophthoralean protoplasts, using silica column chromatography and HPLC. Thin-layer and gas chromatography revealed free fatty acids in the inhibitory fractions. These fatty acids, including long-chain unsaturated fatty acids, were shown to be responsible for the inhibition of glucan synthase. The fatty acids were generated during incubation of a protoplast homogenate for 36 h at 37 °C and were shown to be non-competitive and non-specific inhibitors of glucan synthase.
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- Plant-Microbe Interactions
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High frequency of conjugation versus plasmid segregation of RP1 in epiphytic Pseudomonas syringae populations
More LessSummary: The maintenance and transfer of the broad host-range plasmid RP1 in epiphytically growing populations of Pseudomonas syringae was monitored in the phyllosphere of bush bean (Phaseolus vulgaris). When foliage was inoculated with plasmid-containing bacteria, the plasmid was lost from the majority of the cells within 2 d but was stably maintained in 0.8% of the population. A high frequency of conjugation between added donors and recipients was observed under high humidity conditions. In 1 d, the number of transconjugants rose to 10-1 of the donors and the proportional level of transconjugants continued to increase until 3 d after inoculation. Under these conditions the proportion of plasmid-containing bacteria stabilized at about 0.8% of the total population. The conjugation rate appeared to be in equilibrium with plasmid loss and the slower growth of the plasmid-carrying cells. A factor that influenced the high conjugation frequency observed was the available nutrients provided by the leaf and also, to a lesser extent, the leaf surface itself. Transfer of the plasmid from added donors to indigenous bacteria was also studied, using a donor-specific bacteriophage for counterselection of the donor. Transfer was observed to 10 different species of Gram-negative epiphytically growing bacteria. The bean leaf surface appears to function as a hotspot at least for intraspecific transfer of plasmids in high humidity. The frequency of transfer was higher than in soil or in rhizosphere habitats. This is likely to be the result of an environment that is nutritionally rich in combination with a limited colonizable surface area which permits close contact between the bacterial cells.
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- Genome Analysis
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Physical and genetic map of the genome of Campylobacter upsaliensis
More LessSummary: A physical map of Campylobacter upsaliensis ATCC 43954 was constructed from DNA fragments generated by SalI (5′ G/TCGAC), NarI (5′ GG/CGCC) and BssHII (5′ G/CGCGC) restriction digests separated using pulsed-field gel electrophoresis. The size of the C. upsaliensis genome was approximately 2000 kb, providing evidence of the largest Campylobacter genome sized to date. Twenty-one fragments created from these restriction digests were assembled into a physical map using a combination of complementary methods including cross-Southern hybridization, hybridization fingerprint analysis and hybridization with homologous and heterologous (from Campylobacter jejuni) gene probes. The position of ten genetic loci, including that of the iron-uptake regulatory (fur) gene, were localized to the physical map. A genomic library of C. upsaliensis ATCC 43954 was constructed in lambda Gem-11 vector. Fifty thousand recombinants with an average size of 16 kb represent a library about 200 times the size of the genome. Using C. jejuni DNA probes, clones representing C. upsaliensis flaA, fur and ftsZ genes were isolated and localized to the physical map.
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Study of the organization of the genomes of Escherichia coli, Brucella melitensis and Agrobacterium tumefaciens by insertion of a unique restriction site
Summary: Tn5Map, a Tn5 derivative containing the 18 bp I-Scel site, was delivered from a RP4-mobilizable, RK6-derived suicide vector to Escherichia coli HB101, Brucella melitensis and Agrobacterium tumefaciens C58, which all lack natural I-Scel sites in their genomes. Digestion of the DNA from Tn5Map-containing strains and analysis by pulsed-field gel electrophoresis (PFGE) revealed that these derivatives contained a single transposon insertion. These digests also gave direct and independent proof for the single circular chromosome of E. coli, and for the presence of two circular chromosomes in B. melitensis and of a circular and a linear chromosome in A. tumefaciens C58 (which also contains two large circular plasmids). This rapid and versatile technique is potentially applicable to the study of the genomic organization in all Gram-negative bacteria which support Tn5 transposition. Moreover, linearization of circular replicons could be the first step for a rapid method of physical mapping.
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Volumes and issues
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