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AIMS: To determine the mechanism of the hydrolysis of 4-methylumbelliferyl-beta-D-glucopyranoside (beta-MUG) by germinating and outgrowing spores of Bacillus species. METHODS AND RESULTS: Spores of B. atrophaeus (formerly B. subtilis var. niger, Fritze and Pukall 2001) are used as biological indicators of the efficacy of ethylene oxide sterilization by measurement of beta-MUG hydrolysis during spore germination and outgrowth. It was previously shown that beta-MUG is hydrolysed to 4-methylumbelliferone (MU) during the germination and outgrowth of B. atrophaeus spores (Chandrapati and Woodson 2003), and this was also the case with spores of B. subtilis 168. Germination of spores of either B. atrophaeus or B. subtilis with chloramphenicol reduced beta-MUG hydrolysis by almost 99%, indicating that proteins needed for rapid beta-MUG hydrolysis are synthesized during spore outgrowth. However, the residual beta-MUG hydrolysis during spore germination with chloramphenicol indicated that dormant spores contain low levels of proteins needed for beta-MUG uptake and hydrolysis. With B. subtilis 168 spores that lacked several general proteins of the phosphotransferase system (PTS) for sugar uptake, beta-MUG hydrolysis during spore germination and outgrowth was decreased >99.9%. This indicated that beta-MUG is taken up by the PTS, resulting in the intracellular accumulation of the phosphorylated form of beta-MUG, beta-MUG-6-phosphate (beta-MUG-P). This was further demonstrated by the lack of detectable glucosidase activity on beta-MUG in dormant, germinated and outgrowing spore extracts, while phosphoglucosidase active on beta-MUG-P was readily detected. Dormant B. subtilis 168 spores had low levels of at least four phosphoglucosidases active on beta-MUG-P: BglA, BglH, BglC (originally called YckE) and BglD (originally called YdhP). These enzymes were also detected in spores germinating and outgrowing with beta-MUG, but levels of BglH were the highest, as this enzyme's synthesis was induced ca 100-fold during spore outgrowth in the presence of beta-MUG. Deletion of the genes coding for BglA, BglH, BglC and BglD reduced beta-MUG hydrolysis by germinating and outgrowing spores of B. subtilis 168 at least 99.7%. Assay of glucosidases active on beta-MUG or beta-MUG-P in extracts of dormant and outgrowing spores of B. atrophaeus revealed no enzyme active on beta-MUG and one enzyme that comprised > or =90% of the phosphoglucosidase active on beta-MUG-P. Partial purification and amino-terminal sequence analysis of this phosphoglucosidase identified this enzyme as BglH. CONCLUSIONS: Generation of MU from beta-MUG by germinating and outgrowing spores of B. atrophaeus and B. subtilis is mediated by the PTS-driven uptake and phosphorylation of beta-MUG, followed by phosphoglucosidase action on the intracellular beta-MUG-P. The major phosphoglucosidase catalyzing MU generation from beta-MUG-P in spores of both species is probably BglH. SIGNIFICANCE AND IMPACT OF THE STUDY: This work provides new insight into the mechanism of uptake and hydrolysis of beta-MUG by germinating and outgrowing spores of Bacillus species, in particular B. atrophaeus. The research reported here provides a biological basis for a Rapid Readout Biological Indicator that is used to monitor the efficacy of ethylene oxide sterilization.  相似文献   

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Oxidative stress-induced damage, including 8-oxo-guanine and apurinic/apyrimidinic (AP) DNA lesions, were detected in dormant and outgrowing Bacillus subtilis spores lacking the AP endonucleases Nfo and ExoA. Spores of the Δnfo exoA strain exhibited slightly slowed germination and greatly slowed outgrowth that drastically slowed the spores'' return to vegetative growth. A null mutation in the disA gene, encoding a DNA integrity scanning protein (DisA), suppressed this phenotype, as spores lacking Nfo, ExoA, and DisA exhibited germination and outgrowth kinetics very similar to those of wild-type spores. Overexpression of DisA also restored the slow germination and outgrowth phenotype to nfo exoA disA spores. A disA-lacZ fusion was expressed during sporulation but not in the forespore compartment. However, disA-lacZ was expressed during spore germination/outgrowth, as was a DisA-green fluorescent protein (GFP) fusion protein. Fluorescence microscopy revealed that, as previously shown in sporulating cells, DisA-GFP formed discrete globular foci that colocalized with the nucleoid of germinating and outgrowing spores and remained located primarily in a single cell during early vegetative growth. Finally, the slow-outgrowth phenotype of nfo exoA spores was accompanied by a delay in DNA synthesis to repair AP and 8-oxo-guanine lesions, and these effects were suppressed following disA disruption. We postulate that a DisA-dependent checkpoint arrests DNA replication during B. subtilis spore outgrowth until the germinating spore''s genome is free of damage.  相似文献   

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Susceptibility to UV irradiation of B. cereus BIS-59 spores undergoing germination at various stages-dormant spores to vegetative cell stage and their ability to recover from radiation damage were studied. For a given dose of radiation, the number of spore photoproducts (SPP) formed in the DNA of dormant spores was about 5-times greater than that of thymine dimers (TT) formed in the DNA of vegetative cells. At intermediate stages of the germination cycle, there was a rapid decline in the UV radiation-induced SPP formed in DNA with a concomitant increase in the UV radiation-induced TT formed in DNA. Bacterial spores undergoing germination (up to 3 hr) in the low nutrient medium (0.3% yeast extract) displayed much higher resistance to UV radiation than those germinating in the rich nutrient medium, even though there was no discernible difference under the two incubation conditions in respect of the extent of germination and the time at which the outgrowth stage appeared (3 hr). This was due to the formation TT in the DNA of spores germinating in the low nutrient as compared to that of spores germinating in the rich-nutrient medium. In UV-irradiated dormant spores, SPP formed in the spore DNA did not disappear even after prolonged incubation in the non-germinating medium. However, when the UV-irradiated dormant spores were germinated in low or rich nutrient medium, a significant proportion of SPP in DNA was eliminated. The dormant spores incubated in either of the germinating media for 15 min and then UV-irradiated were capable of eliminating SPP (presumably by monomerization) even by incubation in a non-germinating medium and in the complete absence of protein synthesis (buffer holding recovery), thereby implying that spore-repair enzymes were activated in response to initial's germination. The acquisition of photo-reactivation ability appeared in spores subjected to germination only in the rich-nutrient medium at the outgrowth stage and required de novo synthesis of the required enzymes.  相似文献   

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The structure of DNA extracted from dormant and germinating spores of B. cereus T was investigated using circular dichroism and other methods. No significant differences between DNAs extracted from vegetative cells and from spores of various stages could be found by analyses of CD spectra, CsCl density gradient centrifugation, melting profiles and template activity. All the DNA preparations were in B conformation and had the same density (1.695), Tm (83°C) and template activity in the reaction of DNA-dependent RNA polymerase. An abnormal DNA fraction of high density which was formerly found in B. cereus spores or a stable DNA complex with protein and/or RNA was not detected in the present extracts of spores. Preliminary X-ray analyses of intact spores indicate that the structure of DNA in spores is not so different from B form.  相似文献   

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Mitochondria from dormant spores of the fungus Botryodiplodia theobromae did not contain extractable cyctochrome c oxidase (EC 1.9.3.1) activity; however, this enzyme activity was elaborated rapidly after 150 min of the 240-min germination sequence. The absence of cytochrome c oxidase activity in the dormant spores apparently is not an artifact caused by spore disruption and fractionation procedures, transient enzyme instability, or insensitivity of the enzyme assay. Mitochondria from dormant spores of three other phylogenetically diverse genera of fungi were observed to contain readily detectable quantities of cytochrome c oxidase, suggesting that the absence of the enzyme in B. theobromae may be relatively novel. The elaboration of cytochrome c oxidase activity in germinating spores was abolished by cycloheximide if the drug was added at or before 95 min of germination, but development of enzyme activity was initially insensitive to inhibitors of the mitochondrial genetic system, chloramphenicol or ethidium bromide. Incubation of spores in both ethionine and S-2-aminoethyl-l-cysteine reduced the amount of extracted cytochrome c oxidase activity. Elaboration of enzyme activity was severely retarded by cerulenin, an inhibitor of fatty acid biosynthesis and of spore germination. This enzyme activity developed in water-incubated or 1% Tween 80-incubated spores in which only the cytoplasmic ribosomes are functional in translation of a stored nuclear messenger RNA. The results of this study show that cytoplasmic (but not mitochondrial) ribosome function is required for development of this enzyme activity during spore germination, and they suggest that a portion of the cytochrome c oxidase enzyme or some other protein required for its activity is synthesized de novo upon germination.  相似文献   

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Berberine, an alkaloid originally extracted from the plant Coptis chinensis and other herb plants, has been used as a pharmacological substance for many years. The therapeutic effect of berberine has been attributed to its interaction with nucleic acids and blocking cell division. However, levels of berberine entering individual microbial cells minimal for growth inhibition and its effects on bacterial spores have not been determined. In this work the kinetics and levels of berberine accumulation by individual dormant and germinated spores were measured by laser tweezers Raman spectroscopy and differential interference and fluorescence microscopy, and effects of berberine on spore germination and outgrowth and spore and growing cell viability were determined. The major conclusions from this work are that: (1) colony formation from B. subtilis spores was blocked ~ 99% by 25 μg/mL berberine plus 20 μg/mL INF55 (a multidrug resistance pump inhibitor); (2) 200 μg/mL berberine had no effect on B. subtilis spore germination with L-valine, but spore outgrowth was completely blocked; (3) berberine levels accumulated in single spores germinating with ≥ 25 μg/mL berberine were > 10 mg/mL; (4) fluorescence microscopy showed that germinated spores accumulated high-levels of berberine primarily in the spore core, while dormant spores accumulated very low berberine levels primarily in spore coats; and (5) during germination, uptake of berberine began at the time of commitment (T1) and reached a maximum after the completion of CaDPA release (Trelease) and spore cortex lysis (Tlysis).  相似文献   

10.
Poly(A)-RNA fractions of dormant, dark-imbibed (non-germinating) and photoinduced (germinating) spores of Onoclea sensibilis were poor templates in the rabbit reticulocyte lysate protein synthesizing system, but the translational efficiency of poly(A)+RNA was considerably higher than that of unfractionated RNA. Poly(A)+RNA isolated from photoinduced spores had a consistently higher translational efficiency than poly(A)+RNA from dark-imbibed spores. Analysis of the translation products by one-dimensional polyacrylamide gel electrophoresis showed no qualitative differences in the mRNA populations of dormant, dark-imbibed, and photoinduced spores. However, poly(A)+RNA from dark-imbibed spores appeared to encode in vitro fewer detectable polypeptides at a reduced intensity than photoinduced spores. A DNA clone encoding the large subunit of maize ribulose bisphosphate carboxylase hybridized at strong to moderate intensity to RNA isolated from dark-imbibed spores, indicating the absence of mRNA degradation. Although alpha-amanitin did not inhibit the germination of spores, the drug prevented the elongation of the rhizoid and protonemal initial with a concomitant effect on the synthesis of poly(A)+RNA. These results are consistent with the view that some form of translational control involving stored mRNA operates during dark-imbibition and photoinduced germination of spores.  相似文献   

11.
Spores of the fission yeast Schizosaccharomyces pombe have been separated from vegetative cells by a simple and rapid centrifugation (800 g for 20 min) through a 35% Hypaque solution to a purity greater than 95%. Approximately 35% of the spores were recovered. Regrowth in EMM2 plus glucose showed that over 97% of the spores germinated within the first 2 h and outgrowth continued between 5 and 10 h. Sucrose induced germination in greater than 95% of the spores with a 1 h delay and outgrowth in 50% of the spores with a 3 h delay. There was little protein synthesis during germination but the protein content increased linearly coincident with outgrowth. The RNA content increased slightly during germination, but increased linearly 1 h before the onset of outgrowth and protein synthesis. After 8 h of regrowth, coincident with the onset of DNA synthesis, the rate of RNA synthesis was accelerated. The DNA content had increased 1.7-fold after 10 h of regrowth from a haploid level of 1.36 x 10(-8) microgram spore-1.  相似文献   

12.
Nucleic acid synthesis was studied during germination and outgrowth of normal spores of Bacillus subtilis, as well as of spores carrying the genome of phage phie. In a system in which development was restricted to the spore-darkening phase, synthesis of ribonucleic acid (RNA), but not deoxyribonucleic acid (DNA), was detected. The extent of RNA synthesis and turnover, during this phase was similar for the two types of spores. In a partially darkened population of spores of either type, there was little RNA degradation, whereas there was considerable turnover in a fully darkened population. The DNA-dependent RNA polymerase of dormant or dark spores was not active in vitro with phi DNA as template, although a sigma-like factor could be separated from the polymerizing activity by zone centrifugation. Within 40 min after resuspension of dark spores in a medium that allows outgrowth, the enzyme acquired the ability to transcribe the phage DNA efficiently. During outgrowth, both normal and carrier spores synthesized DNA, but in carrier spores this DNA was almost entirely phage specific. The pattern of RNA accumulation in normal spores was in two distinct phase (0 to 60 min and 90 to 180 min). The second phase was absent in outgrowing carrier spores. The burst of phage in carrier spores occurred at 160 to 180 min.  相似文献   

13.
Polymyxin B, one of the cyclic polypeptide antibiotics, binds to the coat of Bacillus subtilis dormant spores and inhibits them from growing after germination. When about 2.8 × 108 cells/ml of polymyxin B-treated dormant spores were incubated in heart infusion broth, 3.6 μg/ml of polymyxin B were released into the liquid medium during germination. Incubation of the same concentration of polymyxin B-treated ones in 100 mM CaCl2 solution released 4.0 μg/ml of the antibiotic. The effect of various concentrations of polymyxin B on germination, outgrowth and vegetative growth of the dormant spores was investigated; the results showed that concentrations of 4.0 μg/ml and higher of the antibiotic inhibited their outgrowth and vegetative growth after germination. Young vegetative cells were less sensitive to the antibiotic than germinated spores. In addition to these results, immunoelectron microscopy with colloidal gold particles indicated that polymyxin B permeated into the core of the germinated spores and inhibited them from outgrowing.  相似文献   

14.
Spore coat architecture of Clostridium novyi NT spores   总被引:1,自引:0,他引:1       下载免费PDF全文
Spores of the anaerobic bacterium Clostridium novyi NT are able to germinate in and destroy hypoxic regions of tumors in experimental animals. Future progress in this area will benefit from a better understanding of the germination and outgrowth processes that are essential for the tumorilytic properties of these spores. Toward this end, we have used both transmission electron microscopy and atomic force microscopy to determine the structure of both dormant and germinating spores. We found that the spores are surrounded by an amorphous layer intertwined with honeycomb parasporal layers. Moreover, the spore coat layers had apparently self-assembled, and this assembly was likely to be governed by crystal growth principles. During germination and outgrowth, the honeycomb layers, as well as the underlying spore coat and undercoat layers, sequentially dissolved until the vegetative cell was released. In addition to their implications for understanding the biology of C. novyi NT, these studies document the presence of proteinaceous growth spirals in a biological organism.  相似文献   

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The mitochondrial respiratory cytochrome contents of dormant and germinating conidia of Botryodiplodia theobromae were examined. Oxidized versus reduced difference spectra at 77 degrees K of whole mitochondria from physiologically mature germinated spores showed a typical a-band pattern for cytochromes c, b, and a, with absorption maxima at 549, 554 + 559, and 604 nm, respectively, whereas the difference spectrum of the counterpart mitochondrial fraction from dormant spores showed no cytochrome a bands. However, a fraction prepared from dormant spore mitochondria by detergent extraction and (NH4)2SO4 fractionation contained readily detectable quantities of cytochromes c and b (as shown by the a and Soret absorption bands), but it did not contain the a or Soret bands of cytochrome a observed in a counterpart preparation from germinated spores. The pyridine hemochromogen preparation from the dormant spore mitochondria contained no material that is spectroscopically characteristic of a-type heme and protoheme. These results suggest that cytochrome a is not present as a functional molecule in dormant spores. The first spectroscopically detectable cytochromes were observed in whole mitochondria at 210 min of spore germination, and the amount of each of the cytochromes increased with cell growth. A precursor of the heme porphyrin, delta-[4-14C]aminolevulinic acid, was first incorporated (at accelerating rates) into acid-insoluble spore material at 180 min of germination, which appears to be the approximate time of organization of new mitochondria in these spores.  相似文献   

16.
Outgrowth of B. subtilis spores depends on the action of DNA gyrase (comp. Matsuda and Kameyama 1980). Application of nalidixic acid (100 micrograms/ml) to dormant spores of Bacillus subtilis prevents the outgrowth. Application of nalidixic acid (100 micrograms/ml) during the early outgrowth phase (after a 20 min germination period) does not prevent, but only delay spore outgrowth. Germination of spores is not influenced. Nalidixic acid is an effective inhibitor of RNA synthesis in outgrowing spores, whereas vegetative cells are more resistant. Spores can grow out inspite of a remarkably reduced intensity of RNA synthesis. Nalidixic acid particularly inhibits the synthesis of stable RNA, probably that of ribosomal RNA. We suggest that DNA gyrase-catalyzed alterations in DNA structure are involved in the regulation of the gene expressional program of outgrowing B. subtilis spores.  相似文献   

17.
The specific activity of cathepsin B-like, cathepsin D-like, and leucine aminopeptidase enzymes was measured in dormant, aging, and germinating spores of wild-type and mutant Dictyostelium discoideum.The activity of leucine aminopeptidase was relatively constant during spore aging and spore germination. The level of cathepsin D-like activity was highest in young dormant spores but decreased during germination or aging.The level of cathepsin B-like activity remained constant in wild-type spores which were aged for 13 days. The dormant spores of spontaneous germination mutants initially contained low levels of cathepsin B-like activity which increased during aging. Thus, there was no correlation between the level of endogenous cathepsin B activity and the ability to be autoactivated or heat-activated. The level of cathepsin B-like activity does not have a role in the generation of energy for the swelling stage of germination. Finally, the combined level of endogenous and exogenous cathepsin B activity increased more than 20-fold during the emergence of myxamoebae suggesting that the enzyme(s) may play a role at this development stage of germination.  相似文献   

18.
Atomic force microscopy (AFM) has been used to probe, under physiological conditions, the surface ultrastructure and molecular interactions of spores of the filamentous fungus Phanerochaete chrysosporium. High-resolution images revealed that the surface of dormant spores was uniformly covered with rodlets having a periodicity of 10 +/- 1 nm, which is in agreement with earlier freeze-etching measurements. In contrast, germinating spores had a very smooth surface partially covered with rough granular structures. Force-distance curve measurements demonstrated that the changes in spore surface ultrastructure during germination are correlated with profound modifications of molecular interactions: while dormant spores showed no adhesion with the AFM probe, germinating spores exhibited strong adhesion forces, of 9 +/- 2 nN magnitude. These forces are attributed to polysaccharide binding and suggested to be responsible for spore aggregation. This study represents the first direct characterization of the surface ultrastructure and molecular interactions of living fungal spores at the nanometer scale and offers new prospects for mapping microbial cell surface properties under native conditions.  相似文献   

19.
The enzyme CwlJ is involved in the depolymerization of cortex peptidoglycan during germination of spores of Bacillus subtilis. CwlJ with a C-terminal His tag was functional and was extracted from spores by procedures that remove spore coat proteins. However, this CwlJ was not extracted from disrupted spores by dilute buffer, high salt concentrations, Triton X-100, Ca(2+)-dipicolinic acid, dithiothreitol, or peptidoglycan digestion, disappeared during spore germination, and was not present in cotE spores in which the spore coat is aberrant. These findings indicate the following: (i) the reason decoated and cotE spores germinate poorly with dipicolinic acid is the absence of CwlJ from these spores; and (ii) CwlJ is located in the spore coat, presumably tightly associated with one or more other coat proteins.  相似文献   

20.
The germination of conidiospores of wild-type Neurospora crassa was found to be dependent upon the function of the cytochrome-mediated electron transport pathway. The cyanide-insensitive alternate oxidase did not contribute significantly to the respiration of these germinating spores. The dormant spores contained all of the cytochrome components and a catalytically active cytochrome c oxidase required for the activity of the standard respiratory pathway, and these preserved components were responsible for the accelerating rates of oxygen uptake which began immediately upon suspension of the spores in an incubation medium. Mitochondria of the dormant spores contained all of the subunit peptides of the functional cytochrome c oxidase; nevertheless, de novo synthesis of these subunits began at low rates in the first stages of germination. Reactivation of the respiratory system of germinating N. crassa spores seems not to be dependent initially upon the function of either the mitochondrial or cytoplasmic protein-synthesizing systems. The respiratory activity of spores of three mutant cytochrome c oxidase-deficient strains of N. crassa also was found to depend upon the function of the cytochrome electron transport pathway; the dormant and germinating spores of these strains contained a catalytically active cytochrome c oxidase. Cytochrome c oxidase may be present in the dormant and germinating spores of these strains as the result of a developmental-phase-specific synthesis of and requirement for the enzyme.  相似文献   

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