Alkaline phosphatase production during sporulation ofBacillus cereus

Cell-bound alkaline phosphatase ofBacillus cereus was produced during vegetative growth and sporulation in a complex medium. Addition of glucose repressed the sporulation process and the amount of enzyme synthesized increased. The time course of alkaline phosphatase production is very similar in both sporulating and non-sporulating cells. Irrespective of sporulation, alkaline phosphatase level shows a peak of activity in the exponential phase, and another in the stationary phase of growth. This preliminary data indicates differences betweenB. cereus, andB. subtilis in alkaline phosphatase characteristics.     

Regulation and structure of aspartokinase in the genusBacillus

The aspartate pathway of amino acid biosynthesis in bacteria serves as paradigm for the evolution of patterns of enzyme regulation in response to specific physiological requirements. InBacillus species, the first step in the pathway is catalyzed by multiple forms of aspartokinase, which differ in their structure and feedback regulation. One form of aspartokinase (V-type) functions primarily during cell growth, another form (S-type) during sporulation. The V-type aspartokinase fromBacillus subtilis andBacillus polymyxa is discussed in some detail on account of its complex pattern of regulation by the pathway endproducts lysine and threonine and its unusual subunit structure. The enzyme is composed of two dissimilar subunits, the smaller of which corresponds to the carboxyl-terminal domain of the larger subunit. The coding sequence for the subunits ofBacillus subtilis aspartokinase has recently been cloned inEscherichia coli. The study of its structure and mode of expression has revealed that the two aspartokinase subunits are encoded by in-phase overlapping genes. These unusual features of aspartokinase suggest that important aspects of the regulation of the aspartate pathway are yet to be discovered.     

Growth During the Bacterial Cell Cycle: Analysis of Cell Size Distribution

Cell volume distributions were determined electronically for steady-state cultures of Escherichia coli, Bacillus megaterium, Bacillus subtilis, and Salmonella typhimurium by use of a Coulter transducer-multichannel analyzer system of good resolution. All of the cell volume distributions had the same general shape, even though cultures were grown at widely different rates. Some results were independent of any particular growth model. Both the variability in the volumes of dividing cells and the fraction of constricted and unseparated doublet cells increased with growth rate. The greater separation to single cells at slow growth rates is in agreement with the general finding that filamentous and hyphal forms are greatly reduced in slowly growing chemostat cultures. The distributions were fitted equally well by simple models which assumed that cell growth was either linear or exponential throughout the entire cell cycle. It is concluded that methods of determining growth rate by analysis of distributions of bacterial volumes do not yet have sufficient resolution to distinguish between a variety of alternative models for growth of bacteria.     

Antagonistic effects of soil bacteria onFusarium oxysporum Schlecht f. sp.dianthi (Prill and Del.) Snyd. and Hans

Summary Fusarium oxysporum f. sp.dianthi, pathogenic on carnation plants is very sensitive toBacillus subtilis M51 inhibition.Fusarium oxysporum disease (fusariosis) is prevented for a period of two months after treatment of plants withBacillus subtilis M51. The persistence ofB. subtilis M51, marked for selenomycin resistance (MZ51) and inoculated on the roots of carnation cuttings was studied. Soil used was two types: naturally infested withFusarium oxysporum and free from this pathogen. Bacterial cells presence on the roots was detected by direct plating and the presence of the pathogen in the roots was investigated by histological assays. Evidence gathered by these procedures suggest that plant protection is dependent on the physical presence ofB. subtilis M51 cells on the roots.     

Effect of dimethyl sulfoxide on lysine production by a mutant ofBacillus subtilis with low homoserine dehydrogenase activity

SomeBacillus subtilis mutants with different levels of homoserine dehydrogenase were described. Strains that do not accumulate methionine have a high homoserine dehydrogenase activity. Low activity was detected in mutants where cell growth was completely inhibited by 0.7 mmol/L methionine. A low concentration of dimethyl sulfoxide had a stimulatory effect on lysine production by the methionine-sensitive mutant ofBacillus subtilis.     

Application of LFH-PCR for the disruption ofSpoIIIE andSpoIIIG ofB. subtilis

The application of LFH-PCR (long flanking homology region-PCR) forBacillus subtilis gene disruption is presented. Without plasmid- or phage-vector construction, only by PCR, based on a DNA sequence retrieved fromB. subtilis genome data base, kanamycin resistance gene was inserted into two genes ofB. subtilis involved in sporulation,spoIIIE andspoIIIG. The effect of gene disruption on subtilisin expression was examined and the sporulation frequency of two mutants was compared to that of the host strain. For this purpose, only 2 or 3 rounds of PCR were required with 4 primers. We first demonstrated the possibility of LFH-PCR for rapid gene disruption to characterize an unknown functional gene ofB. subtilis or other prokaryote in the genomic era.     

Cell cycle and sporulation in Bacillus subtilis

Recent work on cell division and chromosome orientation and partitioning in Bacillus subtilis has provided insights into cell cycle regulation during growth and development. The cell cycle is an integral part of development and entrance into sporulation is modulated by signals that transmit the status of DNA integrity, chromosome replication and segregation. In addition, B. subtilis modifies cell division and DNA segregation to establish cell-type-specific gene expression during sporulation.     

Carbon-nitrogen relations during batch growth ofNannochloropsis oculata (Eustigmatophyceae) under alternating light and dark

Nannochloropsis oculata (strain CCAP 849/1) was sampled at least every 12 h over a 26-d period of batch culture growth in a 12 h/12 h light/dark illumination cycle. Exponential cell-specific growth rate was 0.5 d^–1. Cell division occurred during the dark phase, while ammonium uptake, pigment synthesis and cell volume increase occurred mainly during the light. Stationary phase cells were on average larger that the largest exponentially growing cells. The lag phase prior to cell division was short with the C/N ratio returning to 6.25 (from 28) within 2 d of refeeding with ammonium. Significant Chl.a synthesis commenced after this period; net synthesis of Chl.a ceased on exhaustion of the N-source with a 40% fall in levels by the end of the stationary phase. Levels of carotenoids per cell also declined during N-deprivation although per ml of culture levels remained constant. Ammonium-refeeding of N-deprived cells resulted in a very rapid rise in glutamine (Gln) and very high ratios of glutamine/glutamate (Gln/Glu peaking at 35 within 1 h); peak Gln/Glu was lower in cells refed in the dark or after a shorter period of N-deprivation. The major intracellular amino acids during exponential phase were Glu, Gln, alanine and arginine, but on exhaustion of the N-source, levels of Gln fell rapidly (Gln/Glu falling to below 0.1 from 0.5–0.9 in the light and 0.3 in darkness during exponential growth). During N-deprivation tyrosine accumulated within the cells. Comparisons are drawn with the growth ofIsochrysis galbana, another alga used in aquaculture, under identical conditions.Author for correspondence     

Microbial transformation of immunosuppressive compounds III. Glucosylation of immunomycin (FR 900520) and FK 506 byBacillus subtilis ATCC 55060

Summary The regiospecific glucosylation of FK 506 and immunomycin (FR 900520) at the 24-hydroxy position was performed using resting cells ofBacillus subtilis ATCC 55060. 24-Glucopyranosyl FK 506 and 24-glucopyranosyl immunomycin were isolated by methylene chloride extraction and purification using reverse phase HPLC. The metabolite structures were established using spectroscopic techniques including MS and NMR. The glucose conjugate was further confirmed by chemical degradation. Enzymatic glucosylation was demonstrated using cell-free extracts derived fromBacillus subtilis ATCC 55060. The 24-glucosyltransferase, which appears UDP-glucose dependent, was solubilized from cell membranes by treatment with 0.1% Nonidet P-40 detergent. The optimal conditions for assay of the enzyme have been determined.     

枯草芽孢杆菌刺激小鼠肠上皮细胞分泌的IL-33在活化树突状细胞中发挥重要作用

【目的】枯草芽孢杆菌能有效诱导肠道黏膜免疫应答,但活化黏膜下树突状细胞(DC)的具体机制不完全清楚。【方法】本研究首先用不同浓度枯草芽孢杆菌刺激小鼠肠上皮CMT93细胞,用荧光定量PCR和ELISA检测细胞因子表达水平,然后将枯草芽孢杆菌刺激细胞的培养上清与小鼠骨髓源树突状细胞(BMDC)进行共孵育,用流式细胞术检测BMDC活化标志,最后用RNA干扰技术证明IL-33在活化BMDC中的作用。【结果】枯草芽孢杆菌能显著刺激CMT93细胞分泌IL-6、IL-33和IFN-γ等细胞因子,对刺激IL-33表达呈现剂量依赖性;枯草芽孢杆菌刺激CMT93细胞产生的细胞因子能活化BMDC,在RNA干扰IL-33基因表达和枯草芽孢杆菌刺激后,CMT93细胞培养上清活化BMDC的能力显著降低。【结论】本研究结果表明枯草芽孢杆菌刺激肠上皮细胞产生的IL-33在BMDC活化中具有重要作用。     

Toward a bacterial genome technology: integration of theEscherichia coli prophage lambda genome into theBacillus subtilis 168 chromosome

A novel approach to the cloning large DNAs in theBacillus subtilis chromosome was examined. AnEscherichia coli prophage lambda DNA (48.5 kb) was assembled in the chromosome ofB. subtilis. The lambda DNA was first subcloned in four segments, having partially overlapping regions. Assembly of the complete prophage was achieved by successive transformation using three discrete DNA integration modes: overlap-elongation, Campbell-type integration, and gap-filling. In theB. subtilis chromosome, DNA was elongated, using contiguous DNA segments, via overlap-elongation. Jumping from one end of a contiguous DNA stretch to another segment was achieved by Campbell-type integration. The remaining gap was sealed by gap-filling. The incorporated lambda DNA thus assembled was stably replicated as part of the 4188 kbB. subtilis chromosome under non-selective conditions. The present method can be used to accommodate larger DNAs in theB. subtilis chromosome and possible applications of this technique are discussed.     

Specificity of translation of spore polypeptides in bacillus in vitro systems

Cell free extracts prepared from exponentially growing Escherichia coli and Bacillus cereus as well as from Bacillus cereus at the end of exponential growth were optimized for various factors required for amino acid incorporation when programmed with Bacillus ribonucleic acid. All three preparations synthesized glutamine synthetase antigen when ribonucleic acid from a Bacillus subtilis strain that overproduces glutamine synthetase was added. The post exponential Bacillus cereus extract, however, was most active for the synthesis of Bacillus cereus spore coat antigen when supplemented with the appropriate ribonucleic acid. There appears to be some specificity in the translation of at least this sporulation messenger RNA.Non-Standard Abbreviations PMSF phenyl methyl sulfonylfluoride - GS glutamine synthetase - UDS 8 M urea, 1% (W/V) sodium dodecyl sulfate, 50 mM dithioerythritol, 2 mM PMSF, 5 mM cyclohexylaminoethane sulfonic acid, pH 9.6     

The Bacillus subtilis menCD promoter is responsive to extracellular pH

Activation kinetics of a Bacillus subtilis menaquinone biosynthetic gene promoter (the menCD promoter) were measured during growth and sporulation, with the aid of a menCD-lacZ translational gene fusion. Transient maximal activation was seen shortly after the end of exponential growth in unbuffered complex medium containing a low glucose concentration. These activation kinetics were correlated with transient acidification of the medium under conditions permitting TCA cycle function during the post-exponential period, while mutations that blocked TCA cycle function (cit mutants) were associated with sustained acidification and promoter activation during this period. In cit ⁺ strains, buffering of the medium to pH 5.7 caused sustained maximal activation, while buffering to pH 7.2 prevented enhancement of activation. The menCD promoter appears to be responsive to extracellular acidic pH.     

Effects on winter wheat seedling growth by toxin-producing rhizobacteria

Summary Root-colonizing pseudomonads capable of inhibiting seedling winter wheat (Triticum aestivum L.) root growth in an agar seedling bioassay also significantly inhibited wheat root growth in vermiculite; however, the inhibitory trait is quite labile in laboratory culturing. The extent of inhibition in both the agar and vermiculite medium depended on inoculum level. These pseudomonads were found to produce a toxin capable of inhibiting growth ofEscherichia coli C-la andBacillus subtilis. Field isolates that strongly inhibit growth of indicator bacteria also inhibited root growth. Toxin production by the bacteria appeared necessary for inhibition of root growth and indicator bacteria as toxin-negative (TOX^–) mutants no longer inhibited either. Antibiosis towardsE. coli as well as wheat seedling root inhibition in agar was reversed by L-methionine, providing further evidence that a toxin, produced by these organisms, is involved in growth retardation.Contribution in cooperation with the College of Agric. Res. Center, Washington State Univ., Pullman, WA 99164. Scientific Paper No. 6837.     

Levels and localization of mechanosensitive channel proteins in <Emphasis Type="Italic">Bacillus subtilis</Emphasis>

Log phase Bacillus subtilis cells lacking the mscL gene encoding the mechanosensitive (MS) channel of large conductance are sensitive to an osmotic downshock ≥0.5 M. However, B. subtilis mscL cells develop osmotic downshock resistance in late log and early stationary phase growth that is partially dependent on three likely MS channel proteins of small conductance (MscS), YfkC, YhdY, and YkuT. Bacillus subtilis MS proteins were fused with green fluorescent protein (GFP) at their C termini; at least the MscL-, YfkC-, and YkuT-GFP fusions were functional and overexpression of YkuT-GFP, or YkuT alone abolished log phase mscL cells’ osmotic downshock sensitivity. Western blot analysis found high levels of MscL-GFP in early exponential phase cells with levels subsequently decreasing greatly. MscS-GFP proteins were present in exponential phase cells, but again disappeared almost completely in stationary phase cells and these proteins were not detected in spores. Western blot analyses further showed that MS-GFP proteins were associated with the plasma membrane, as expected. Fluorescence microscopy confirmed the localization of MscL-GFP and YhdY-GFP to the plasma membrane, with non-uniform distribution of these proteins along this membrane consistent with but by no means proving that these proteins are present in a helical array.     

Transporters involved in uptake of di- and tricarboxylates in Bacillus subtilis

Di- and tricarboxylates found as intermediates in the tricarboxylic acid cycle can be utilized by many bacteria and serve as carbon and energy source under aerobic and anaerobic conditions. A prerequisite for metabolism is that the carboxylates are transported into the cells across the cytoplasmic membrane. Bacillus subtilis is able to metabolize many di- and tricarboxylates and in this overview the available data on all known and putative di- and tricarboxylate transporters in B. subtilis is summarized. The B. subtilis transporters, that are of the secondary type, are discussed in the context of the protein families to which they belong. Available data on biochemical characterization, regulation of gene expression and the physiological function is summarized. It is concluded that in B. subtilis multiple transporters are present for tricarboxylic acid cycle intermediates. This revised version was published online in June 2006 with corrections to the Cover Date.     

Phenotypic diversity and technological properties of <Emphasis Type="Italic">Bacillus subtilis</Emphasis> species isolated from <Emphasis Type="Italic">okpehe</Emphasis>, a traditional fermented condiment

The Bacillus subtilis wild strains isolated from okpehe, a traditional fermented condiment used as seasoning in Nigeria, the reference and typed strains were investigated for their phenotypic diversity and their technological parameters with a view to obtain adequate data that would enable selection of appropriated starter cultures for vegetable protein fermentation in West Africa. All the 7 strains studied demonstrated diverse phenotypic characteristics and they were identified as Bacillus subtilis, based on the API 50 CHB combined with API 20E profile. Specific sugars that indicated a good hydrolytic potential of the wild strains were fermented. The highest proteinase activity of 90 AU/ml determined quantitatively was observed in the strain Bacillus subtilis BFE 5372, the proteinase was identified by the APIZYM gallery as chymotrypsin. Highest amylase activity of 13 AU/ml was noticed in strain Bacillus subtilis DSM 347 while only 4 strains produced polyglutamic acid with the strain Bacillus subtilis BFE 5359 producing the highest polyglutamate activity of 2.5 mm. Although strain Bacillus subtilis BFE 5301 did not release detectable polyglutamate, the strain demonstrated antagonism against different bacteria and the antimicrobial substance produced by strain Bacillus subtilis BFE 5301 was confirmed as a bacteriocin since its activities were lost after treatment with chymotrypsin and pepsin. The data generated showed the technological parameters that can aid selection of wild strains such as Bacillus subtilis BFE 5301, BFE 5359 and BFE 5372 for optimization of condiment production.     

Modes of Growth in Mammalian Cells

The increase of cell volume as a function of time was studied throughout the generation cycle in synchronous cultures of Chinese hamster cells using a Coulter aperture and a multichannel analyzer calibrated against known cell volumes. The experimental results were compared to a mathematical model of cell volume increase which considered the effect of the distribution of individual cell generation times on the progress of the population. Several modes of volume increase, including linear and exponential, were considered. The mean volume vs. time curve was rounded at the ends of the cycle even when linear growth was assumed. The experimental results show that cell volume increased in a smooth fashion as a function of time, with no discontinuities in rate detectable at periods when cells may have been undergoing metabolic shifts as, for example, through the phases associated with DNA synthesis, G₁, S, G₂. A statistical test on the comparison of the modal cell volume vs. time data to the predictions of linear and exponential growth models accepted both hypotheses within the resolution of these experiments. However, exponential growth was favored over linear growth in one cell line. Volume dispersion was almost constant with time in both sublines which is also consistent with exponential growth. Limitations of the electronic technique of volume measurement and indications for future experiments are discussed.     

Effect of growth rate on the maintenance of a recombinant plasmid inBacillus subtilis

Summary The rate of fall in the proportion of plasmid-containing cells in a population ofBacillus subtilis 1A297[pVC102] grown in continuous culture was independent of growth rate. Plasmid loss could not be ascribed to faulty partitioning during cell division. At a low dilution rate, the specific rate of plasmid loss exceeded the specific growth rate of the plasmid-containing cells.     

The relative rotation of the ends of Bacillus subtilis during growth

Observation of long single filaments of Bacillus subtilis 168 in depression slide cultures demonstrated that one end rotated relative to the other during growth. This was observed with suspended filaments, filaments attached to glass surfaces and single stranded filaments folded back on themselves growing as a double stranded helix. This extends Mendelson's 1976 conclusion to cases with no alternative interpretation to the hypothesis that as each cell grows, the structure of the peptidoglycan changes to rotate one end relative to the other.