- Volume 144, Issue 1, 1998
Volume 144, Issue 1, 1998
- Pathogenicity And Medical Microbiology
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Seroreactive species-specific lipooligosaccharides of Mycobacterium mucogenicum sp. nov. (formerly Mycobacterium chelonae-like organisms): identification and chemical characterization
Summary: Strains of the new species Mycobacterium mucogenicum exhibit physiological and biochemical features very similar to those of the other species of the Mycobacterium fortuitum complex. To define taxonomic criteria for easy identification of M. mucogenicum, the glycolipid patterns of the reference strains and of 32 environmental and clinical isolates were examined by TLC. It was concluded that all M. mucogenicum strains of smooth colony morphology contained species-specific alkali-labile glycoconjugates. Three different patterns were observed among the strains of the smooth colony type. Fractionation followed by conventional chemical analyses of the purified glycolipids showed the specific glycolipids to be lipooligosaccharides (LOS). The three LOS showed a similar fatty acid composition consisting of straight chain (dodeca-, tetradeca-, hexadecanoyl and hexadecenoyl) and methyl-branched (2,4-dimethyleicosanoyl and 2,4-dimethyleicosenoyl) fatty acyl substituents. The most commonly encountered LOS (present in 76% of the smooth strains) contained a tetraacylated pentasaccharide composed of four moles of glucose and one mole of a 2,4-di-O-methylhexose. A LOS composed of arabinose, glucose and mannose was present in 20% of the smooth strains, whereas the newly proposed type strain of M. mucogenicum (ATCC 49650) was the only strain that contained a LOS composed of glucose and galactose. Serological studies clearly differentiated most of the strains of M. mucogenicum from those of the other members of the M. fortuitum complex, and demonstrated the existence of serovars within the former species. Altogether, these data confirm the validity of the new species but show ATCC 49651 to be the most representative strain.
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- Physiology And Growth
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Differential expression of glucose-regulated (grp78) and heat-shock-inducible (hsp70) genes during asexual development of Neurospora crassa
More LessSummary: The expression of a glucose-regulated gene (grp78) changes significantly during the vegetative life cycle of Neurospora crassa: the amounts of grp78 mRNA are low in dormant conidia, increase during germination and exponential growth, decline in young aerial hyphae and reach a maximum in late (15-18 h) aerial hyphae. Heat shock (30 min at 45°C) elevated the mRNA level of this gene especially in early aerial hyphae, whereas no increase above the high constitutive amount was found after heat treatment of late aerial hyphae. The expression of the inducible hsp70 gene after heat shock also varied with the state of development and showed the highest inducibility in late aerial hyphae. Surface mycelium, from which aerial hyphae emerge, showed a similar increase in the amounts of both mRNA species. A developmental mutant (acon-2), which is defective in minor constriction budding of aerial hyphae, showed lower levels of con-2 mRNA as well as of grp78 and hsp70 mRNA (after heat shock) in late aerial hyphae. The acon-2 mutant did not form conidia at this stage. It is concluded that the high constitutive and inducible expression of stress genes in late aerial hyphae is due to a developmental activation of their transcription or, alternatively, to a lower degradation rate of their mRNA during this stage.
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Effect of cytochalasin A on apical growth, actin cytoskeleton organization and enzyme secretion in Aspergillus nidulans
More LessSummary: The role of actin in apical growth and enzyme secretion in the filamentous fungus Aspergillus nidulans was studied by treating the hyphae with cytochalasin A (CA), which inhibits actin polymerization. Indirect immunofluorescence microscopy revealed actin at the tips of main hyphae and branches, and at the sites of developing septa. CA inhibited the growth of the fungus and changed the growth pattern of hyphal tips from cylindrical tubes to spherical beads. The regions with swellings showed no actin fluorescence, and neither was actin seen in association with septa. After 4 h exposure, hyphae were able to resume the normal tip growth pattern in the presence of CA for a short period of time and new cylindrical hyphae, with actin fluorescence at the apex, emerged from the swollen tips. Later, the tips of the hyphae swelled again, which led to a beaded apperance. We also studied the effect of CA on the secretion of α- and β-galactosidase. α-Galactosidase is secreted into the culture medium, whereas β-galactosidase remains in the mycelium, with part of its activity bound to the cell wall. When A. nidulans mycelium was incubated in the presence of CA, a reduction in the secretion of α-galactosidase into the culture medium and a decrease in the α- and β-galactosidase activities bound to the cell wall was detected. However, the CA dose used for the hyphae did not modify the secretion of the enzymes from protoplasts. Results described here provide evidence that a polymerized actin cytoskeleton is required for normal apical growth, hyphal tip shape and polarized enzyme secretion in A. nidulans. Cytochalasin-induced disruptions of the actin cytoskeleton could result in the alterations of apical growth and inhibition of enzyme secretion observed by blocking secretory vesicle transport to the apex.
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The role of autolysins during vegetative growth of Bacillus subtilis 168
More LessSummary: A set of isogenic mutants of Bacillus subtilis 168, insertionally inactivated in the genes encoding a number of lytic enzymes and a sigma factor (σD, which controls the expression of a number of autolysins) was constructed. Phenotypic analysis of the mutants determined the individual and combined roles of the autolysins in vegetative growth. The major vegetative autolysins of B. subtilis, LytC (50 kDa amidase) and LytD (90 kDa glucosaminidase), were shown to have roles in cell separation, cell wall turnover, antibiotic-induced lysis and motility. LytC was also shown to have a role in general cell lysis induced by sodium azide. Renaturing SDS-PAGE of cell-wall-binding protein extracts of the mutant strains revealed the presence of a novel autolysin that was previously masked by LytC. This 49 kDa enzyme was shown to be σD-controlled and was identified as a candidate cell separation and cell wall turnover enzyme. A multiple mutant strain, lacking LytC, LytD and the 49 kDa enzyme, retained at least ten bands of autolytic activity. These may correspond to individual or proteolytically processed novel autolysins, the functions of which are unknown. The multiple mutant strains facilitate the study of these, and other lytic enzymes, to determine their cellular functions.
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Response of Bacillus subtilis to high osmolarity: uptake of carnitine, crotonobetaine and γ-butyrobetaine via the ABC transport system OpuC
More LessSummary: It was found that low concentrations of the naturally occurring and structurally related betaines L-carnitine, crotonobetaine and γ-butyrobetaine conferred a high degree of osmotic tolerance to Bacillus subtilis. Kinetic analysis of L-[N-methyl −14C]carnitine uptake in cells grown in minimal medium revealed the presence of a high-affinity transport system with a K m value of 5 μM and a maximum rate of transport (V max) of 41 nmol min−1 (mg protein)−1. A rise in medium osmolarity moderately increased the maximum velocity [V max 71 nmol min−1 (mg protein)−1] of this transport system, but had little effect on its affinity. Growth and transport studies with a set of strains that carried defined mutations in the previously identified glycine betaine transport systems OpuA, OpuC and OpuD allowed the identification of the ATP-binding cassette (ABC) transport system OpuC as the only uptake route for L-carnitine in B. subtilis. Competition experiments with crotonobetaine and γ-butyrobetaine revealed that the OpuC system also exhibited a high affinity for these trimethylammonium compounds with K i values of 6.4 μM. Tracer experiments with radiolabelled L-carnitine and 13C-NMR tracings of cell extracts demonstrated that these betaines are accumulated by B. subtilis in an unmodified form. In contrast, the β-substituted acylcarnitine esters acetylcarnitine and octanoylcarnitine both functioned as osmoprotectants for B. subtilis but were found to be accumulated as carnitine by the cells. None of these trimethylammonium compounds were used as sole carbon or nitrogen sources. The results thus characterize L-carnitine, crotonobetaine and γ-butyrobetaine as effective compatible solutes for B. subtilis and establish a crucial role of the ABC transport system OpuC for the supply of B. subtilis with a variety of osmoprotectants.
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Metabolism is required for chemotaxis to sugars in Rhodobacter sphaeroides
Summary: Chemotaxis towards carbohydrates is mediated, in enteric bacteria, either by the transport-independent, methylation-dependent chemotaxis pathway or by transport and phosphorylation via the phosphoenolpyruvate (PEP)-dependent phosphotransferase system (PTS). This study shows that Rhodobacter sphaeroides is chemotactic to a range of carbohydrates but the response involves neither the classical methyl-accepting chemotaxis protein (MCP) pathway nor the PTS transport pathway. The chemoattractant fructose was transported by a fructose-specific PTS system, but transport through this system did not appear to cause a chemotactic signal. Chemotaxis to sugars was inducible and occurred with the induction of carbohydrate transport systems and with substrate incorporation. A mutation of the glucose-6-phosphate dehydrogenase gene (zwf) inhibited chemotaxis towards substrates metabolized by this pathway although transport was unaffected. Chemotaxis to other, unrelated, chemoattractants (e.g. succinate) was unaffected. These data, in conjunction with the fact that mannitol and fructose (which utilize different transport pathways) compete in chemotaxis assays, suggest that in R. sphaeroides the chemotactic signal is likely to be generated by metabolic intermediates or the activities of the electron-transport chain and not by a cell-surface receptor or the rate or mode of substrate transport.
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Carbon and energy flux constraints in continuous cultures of Alcaligenes eutrophus grown on phenol
More LessSummary: The growth behaviour of Alcaligenes eutrophus on phenol was investigated in continuous cultures to identify the phenomena limiting both growth efficiency and substrate degradation rates. It was shown that the fixed stoichiometry of the meta pathway of phenol degradation, leading to equimolar quantities of pyruvate and acetate, and the structure of the central pathways, which do not allow gluconeogenesis of acetate during growth on phenol, provoke the accumulation of polyhydroxybutyrate (PHB) under certain growth conditions. Acetate is predominantly used as an energy source and PHB accumulates when the cells are carbon-limited rather than energy-limited. The maximum rates of phenol degradation can be attributed to the expression of the enzymes of the catabolic pathway. This is particularly true of phenol hydroxylase and 2-hydroxymuconate semialdehyde (2-hms) dehydrogenase, whose substrates accumulated to physiologically significant concentrations at high growth rates. Indeed the concentration of 2-hms that accumulated in the medium indicated that this enzyme was substrate-saturated at maximum growth rates. However, the specific activity profiles of other catabolic enzymes associated with phenol degradation were close to the estimated flux through the pathway. This suggests a complex control structure in which several enzymes contribute to the control of pathway flux, as would be expected in a catabolic pathway.
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- Genome Analysis
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Physical identification of a chromosomal locus encoding biosynthetic genes for the lipopeptide calcium-dependent antibiotic (CDA) of Streptomyces coelicolor A3(2)
Summary: Putative peptide-synthetase-encoding DNA fragments were isolated from the Streptomyces coelicolor A3(2) chromosome using a PCR-based approach and mapped to a single ∼ 35 kb segment. In integrative transformation experiments, DNA fragments from this region disrupted production of the calcium-dependent antibiotic (CDA) and had sequences characteristic of non-ribosomal peptide synthetases, thus proving that the cda locus had been cloned.
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- Corrigendum
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- Guidelines For Authors
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