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Archives of Microbiology (v.193, #1)
Starvation/stationary-phase survival of Rhodococcus erythropolis SQ1: a physiological and genetic analysis by Nicolas V. J. Fanget; Sophie Foley (pp. 1-13).
The adaptation of Rhodocccus erythropolis SQ1 to energy and carbon starvation was investigated in terms of both the capacity to survive starvation and the contribution of a nutrient-induced stationary phase to cross-protection to other types of environmental stress. It was found that R. erythropolis SQ1 survives for at least 43 days in LB and distilled water, and 65 days in chemically defined medium (CDM) containing high (1%) or low (0.1%) glucose. Furthermore, early stationary-phase R. erythropolis SQ1 grown in CDM 0.1% exhibited enhanced resistance to heat and oxidative stress compared with exponential-phase cells. A second objective of this study was to identify genetic elements involved in starvation/stationary-phase survival. A mutant bank of R. erythropolis SQ1 generated by random transposon insertion mutagenesis was screened; four mutants lost culturability when grown in CDM 1%. No drop in culturability was observed when these mutants were grown in CDM 0.1%. The DNA flanking transposon insertion could be recovered from three mutants. Transposon insertions were found in uvrB (UvrB, part of the DNA excision repair mechanism), between a putative guaB gene and another guaB-like gene, and between a gene encoding a putative phosphoglycerate mutase and putative thioredoxin/cytochrome c biogenesis genes. This represents a first study of the starvation/stationary-phase survival response of Rhodococcus, an organism of immense significance in environmental bioremediation and a number of industrial processes.
Keywords: Actinomycete(s); Stress response; Bioremediation; Biodegradation; Biotechnology
Chemical composition of Desulfovibrio desulfuricans lipid A by Daniel Wolny; Jolanta Lodowska; Marzena Jaworska-Kik; Sławomir Kurkiewicz; Ludmiła Węglarz; Zofia Dzierżewicz (pp. 15-21).
Lipopolysaccharides also called endotoxins are an integral component of the outer membrane of Gram-negative bacteria. When released from the bacterial surface, they interact with a host immune system, triggering excessive inflammatory response. Lipid A is the biologically most active part of endotoxin, and its activity is modulated by the quantity, quality and arrangement of its fatty acids. Desulfovibrio desulfuricans is sulfate-reducing, Gram-negative bacterium that is supposed to be opportunistic pathogens of humans and animals. In the present study, chemical composition of lipid A from various strains of D. desulfuricans was analyzed by gas chromatography/mass spectrometry. It was found that the fatty acid component of the lipid A contains dodecanoic, tetradecanoic, 3-hydroxytetradecanoic and hexadecanoic acids, and its carbohydrate core is composed of glucosamine. The analysis of 3-acyloxyacyl residue of the lipid A revealed the presence of amide-bound 3-(dodecanoyloxy)tetradecanoic and 3-(hexadecanoyloxy)tetradecanoic acids and ester-bound 3-(tetradecanoyloxy)tetradecanoic acid. It was concluded that both fatty acid and 3-acyloxyacyl residue profiles of the lipid A from the studied bacteria were similar to those of E. coli and S.enterica.
Keywords: Lipid A; Desulfovibrio desulfuricans ; Endotoxin; Lipopolysaccharide
Searching for small σB-regulated genes in Staphylococcus aureus by Jesper S. Nielsen; Mie H. G. Christiansen; Mette Bonde; Sanne Gottschalk; Dorte Frees; Line E. Thomsen; Birgitte H. Kallipolitis (pp. 23-34).
In recent years, small RNAs (sRNAs) have been identified as important regulators of gene expression in bacteria. Most sRNAs are encoded from intergenic regions and are only expressed under highly specific growth conditions. In Staphylococcus aureus, the alternative sigma factor, σB, is known to contribute to the overall stress response, antibiotic resistance, and virulence. The σB regulon in S. aureus is well described and comprises approximately 200 annotated genes, including several genes encoding virulence factors. In the present study, we have identified three novel σB-dependent transcripts encoded from genomic regions previously annotated as intergenic. All three transcripts, named SbrA, SbrB, and SbrC, are highly conserved in S. aureus, and we confirmed their presence in four different isolates (SH1000, Newman, COL, and UAMS-1). Curiously, two of these genes (sbrA and sbrB) were found to contain open reading frames encoding small, highly basic peptides that are conserved among Staphylococci. The third transcript (SbrC) did not contain any likely open reading frame and thus constitute a genuine non-coding sRNA. The functions of these genes are currently unknown but are likely to be important for the σB-mediated response of S. aureus to adverse conditions.
Keywords: S. aureus ; sRNA; σB
Spiroplasma-like organisms closely associated with the gut in five leafhopper species (Hemiptera: Cicadellidae) by El-Desouky Ammar; Gail E. Gasparich; David G. Hall; Saskia A. Hogenhout (pp. 35-44).
Spiroplasmas are bacteria in the Class Mollicutes that are frequently associated with insects and/or plants. Here, we describe the ultrastructure, localization, and occurrence of apparent commensal/symbiotic spiroplasma-like organisms (SLOs) in the midgut and hindgut of five leafhopper species from laboratory-reared colonies. Those found in Dalbulus elimatus, Endria inimica, and Macrosteles quadrilineatus were long and tubular shaped, whereas those in Dalbulus maidis and Graminella nigrifrons were shorter and mostly rod-shaped in their host organisms. These SLOs were found in great numbers in the gut lumen frequently associated with the gut microvilli, but unlike the plant-pathogenic mollicutes, they did not seem to invade the gut epithelium or other tissues in any of these five leafhopper species. Large accumulations of these gut-associated organisms were more commonly found by confocal laser scanning microscopy in males than in females and in crowded than in singly reared leafhoppers. Ultrastructural evidence suggests that these SLOs may be horizontally transmitted between leafhoppers by contamination of the mouth parts with leafhopper excretions.
Keywords: Spiroplasma; Insect gut; Mollicutes; Leafhoppers; Symbionts
Thermogladius shockii gen. nov., sp. nov., a hyperthermophilic crenarchaeote from Yellowstone National Park, USA by Magdalena R. Osburn; Jan P. Amend (pp. 45-52).
A hyperthermophilic heterotrophic archaeon (strain WB1) was isolated from a thermal pool in the Washburn hot spring group of Yellowstone National Park, USA. WB1 is a coccus, 0.6–1.2 μm in diameter, with a tetragonal S-layer, vacuoles, and occasional stalk-like protrusions. Growth is optimal at 84°C (range 64–93°C), pH 5–6 (range 3.5–8.5), and <1 g/l NaCl (range 0–4.6 g/l NaCl). Tests of metabolic properties show the isolate to be a strict anaerobe that ferments complex organic substrates. Phylogenetic analysis of the 16S rRNA gene sequence places WB1 in a clade of previously uncultured Desulfurococcaceae and shows it to have ≤96% 16S rRNA sequence identity to Desulfurococcus mobilis, Staphylothermus marinus, Staphylothermus hellenicus, and Sulfophobococcus zilligii. The 16S rRNA gene contains a large insertion similar to homing endonuclease introns reported in Thermoproteus and Pyrobaculum species. Growth is unaffected by the presence of S0 or SO4 2−, thereby differentiating the isolate from its closest relatives. Based on phylogenetic and physiological differences, it is proposed that isolate WB1 represents the type strain of a novel genus and species within the Desulfurococcaceae, Thermogladius shockii gen. nov., sp. nov. (RIKEN = JCM-16579, ATCC = BAA-1607, Genbank 16S rRNA gene = EU183120).
Keywords: Yellowstone national park; Desulfurococcaceae; Novel species; Thermophile
Autophagy is induced by the type III secretion system of Vibrio alginolyticus in several mammalian cell lines by Zhe Zhao; Lvping Zhang; Chunhua Ren; Jingjing Zhao; Chang Chen; Xiao Jiang; Peng Luo; Chao-Qun Hu (pp. 53-61).
Vibrio alginolyticus is a gram-negative bacterium and has been recognized as an opportunistic pathogen in marine animals as well as humans. Here, we further characterized a cell death mechanism caused by this bacterium in several mammalian cell lines. The T3SS of V. alginolyticus killed HeLa cells by a very similar cell cytolysis mechanism in fish cells, as evidenced by cell rounding and LDH release; however, DNA fragmentation was not observed. Further studies showed that caspase-1 and caspase-3 were not activated during the T3SS-mediated cell death, indicating that the death mechanism is completely independent of pyroptosis and apoptosis in HeLa cells. Conversely, autophagy was detected during the T3SS-mediated cell death by the appearance of MDC-labeled punctate fluorescence and accumulation of autophagic vesicles. Moreover, western blot analysis revealed increase in conversion of LC3-I to LC3-II in infected mammalian cell lines, confirming that autophagy occurs during the process. Together, these data demonstrate that the death process used by V. alginolyticus in mammalian cells is different from that in fish cells, including induction of autophagy, cell rounding and osmotic lysis. This study provides some evidences hinting that differences in death mechanism in responses to V. alginolyticus infection may be attributed to the species of infected cells from which it was derived.
Keywords: Vibrio alginolyticus ; The type III secretion system (T3SS); Cell death; Autophagy; Apoptosis
Delftia sp. JD2: a potential Cr(VI)-reducing agent with plant growth-promoting activity by María A. Morel; Martha C. Ubalde; Victoria Braña; Susana Castro-Sowinski (pp. 63-68).
A chromium (Cr)-resistant bacterium isolated from soil containing 6,000 mg/kg of Cr was identified based on 16S rRNA gene sequence analysis as Delftia, and designated as JD2. Growth of JD2 was accompanied with reduction of Cr(VI) to Cr(III) in liquid medium initially containing 100 mg/L Cr(VI), the maximum concentration allowing growth. JD2 showed NADH/NADPH-dependent reductase activity associated with the soluble fraction of cells. The results suggest that JD2 might be a good candidate for the treatment of highly Cr(VI)-contaminated water and/or industrial effluents. The isolate produced indole-3-acetic acid in the presence and absence of Cr(VI) and showed free-living nitrogen-fixing activity possibly attributable to a V-nitrogenase. JD2 did not counteract the harmful effect of Cr(VI) during leguminous plant growth and nodulation by rhizobial strains but functioned as a “helper” bacterium to enhance the performance of rhizobial inoculant strains during inoculation of alfalfa and clover (used as model plants to study plant growth-promoting activity) in the absence of Cr(VI).
Keywords: Delftia ; Plant-growth-promotion; Bioremediation; Chromium
Size distribution and buoyant density of Burkholderia pseudomallei by Jose-Luis Sagripanti; Monica Carrera; Jeannie Robertson; Avram Levy; Timothy J. J. Inglis (pp. 69-75).
The size and density of microbial cells determine the time that pathogens can remain airborne and thus, their potential to infect by the respiratory route. We determined the density and size distribution of Burkholderia pseudomallei cells in comparison with other Burkholderia species, including B. mallei and B. thailandensis, all prepared and analyzed under similar conditions. The observed size distribution and densities of several bacterial strains indicates that aerosolized particles consisting of one or of a few B. pseudomallei cells should be efficiently retained in the lungs, highlighting the risk of transmission of melioidosis by the respiratory route when the pathogen is present in fluids from infected patients or aerosolized from the environment.
Keywords: Melioidosis; Burkholderia; Cellular size; Aerosols; Imaging; Particle analysis