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1.
Sporulation and spore properties of Bacillus brevis and its gramicidin S-negative mutant 总被引:5,自引:0,他引:5
The function(s) of the peptide antibiotic, gramicidin S, in its producer, Bacillus brevis Nagano, was investigated. Particular attention was paid to the possible role of gramicidin S in sporulation and spore properties. Sporulation was similar in both the gramicidin S-producing parental strain and a gramicidin S-negative mutant of this strain. Mature parental and mutant spores were equally resistant to UV irradiation, solvents (reported previously) and heat. Thus, the lack of gramicidin S synthesis impairs none of these properties. Contrary to results reported by others, we also found no difference in heat resistance between spores of B. brevis ATCC 8185 and its linear gramicidin-negative mutant, Ml. 相似文献
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Bacillus brevis strain Nagano and its gramicidin S-negative mutant, BI-7, were compared with respect to germination of their spores produced in several media. Germination initiation occurred in the presence of nutrient broth orL-alanine but not with inosine, glucose, glycerol or fructose; the process was activated by heat. Parental and mutant spores behaved similarly in these experiments. During outgrowth, parental spores remained in this phase of germination much longer than did mutant spores, but only when the parental spores had been harvested from a sporulation medium where significant gramicidin S synthesis had occurred. When parental spores were extracted or treated with an enzyme that hydrolyzes gramicidin S, rapid outgrowth occurred. Adding exogenous gramicidin S or the extract from parental spores to mutant spores lengthened the outgrowth in a dose-dependent manner. The uptake of labeledL-alanine by parental spores was delayed compared to mutant spores in the presence or absence of chloramphenicol. These data suggest a mechanism of action for gramicidin S whereby it interferes in membrane function, such as transport or energy metabolism, in outgrowing spores.Abbreviations GS
Gramicidin S
- CFU
colony-forming units 相似文献
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We have confirmed the finding of Murray et al. [Lett Appl Microbiol 1: 63–65, 1985] that most of theBacillus brevis spores undergoing the gramicidin S-delayed outgrowth stage of germination are killed by gramicidin S, the antibiotic produced during sporulation. We found, however, that 1% of the population resists this suicidal event even when high concentrations of gramicidin S are added and outgrowth is further delayed. It is obviously this small fraction of the population which, at the end of the long outgrowth stage, develops into vegetative cells. Previous work indicates that this minor population is not genetically resistant to gramicidin S. We conclude that the long delay in germination outgrowth is brought about by two effects of gramicidin S: (1) killing; and (2) decreasing the rate of one or more of the cellular metabolic activities necessary for outgrowth. 相似文献
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Gramicidin S (GS) inhibition of germination outgrowth ofBacillus brevis spores was reversed completely by a short pretreatment with sodium dodecyl sulfate, moderately by ethanol or by incubation at pH 10 but not by incubation at pH 4. Of five metal ions tested (Na+, Mg2+, Fe2+, Cu2+, Ca2+), only Ca2+ reversed GS inhibition. When Ca2+ (but not the other four metal ions) was added to the growth medium, there was a considerable portion of the biosynthesized GS found in the extracellular fluid. These findings are interpreted in terms of the binding of GS to the external layers of theB. brevis spore. 相似文献
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Inhibition of fungal spore germination by gramicidin S and its potential use as a biocontrol against fungal plant pathogens 总被引:2,自引:0,他引:2
Gramicidin S, as well as being sporicidal to Bacillus spores, also inhibits germination and emergence of fungal-like spores of Dictyostelium discoideum . The fungal plant pathogen Fusarium nivale is also inhibited and gramicidin S, therefore, is a sporicidal and antifungal antibiotic. Considering these findings the potential use of this antibiotic and its producer organism Bacillus brevis as a biocontrol is discussed. 相似文献
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Maria-Rosario Rodicio Manuel-Benjamin Manzanal Carlos Hardisson 《Current microbiology》1978,1(2):89-92
Germ tubes from spores ofStreptomyces were very sensitive to lysozyme attack. A good yield of stable protoplasts was obtained 30 min after addition of the enzyme,
making the growth of the microorganism in a high-glycine-content medium unnecessary. Physiologically unaltered, stable protoplasts,
which are formed from cells in the same stage of their developmental cycle, may be obtained in the presence of lysozyme. After
protoplast release, abundant membranous structures were observed inside the empty walls. 相似文献
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Correlation between gramidicin C biosynthesis and sporulation in the process of Bac. brevis var. G.B. cultivation under various aeration conditions was studied. It was shown that biosynthesis of gramicidin C was characteristic of the young cells and its level was the highest during the culture active growth. The time of the sporulating forms appearance depended on the aeration rate which defined the quantitative composition of the population during the phase of the culture active growth and the stationary phase. Under the optimal aeration conditions the spore formation started during the phase of the culture active growth after some decrease in the maximum level of the cell productivity with respect to the antibiotic. When the aeration rate was increased the spore formation was shifted to later periods of the culture development, i.e. the stationary phase and the phase of the cell autolysis, the gap between the highest levels of gramicidin C buosynthesis and the beginning of sporulation being increased. Under certain aeration conditions the spore formation was not observed, while gramicidin C was synthesized. A conclusion has been made that there is no correlation between gramacidine C biosynthesis and sporualtion in Bacillus brevis var. G.B. 相似文献
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The content of lipids was studied in the gramicidin producing variants of Bacillus brevis var. G.-B. in the process of submerged cultivation. The greatest accumulation of lipids preceded the highest content of gramicidin C in the producing cells. The interrelation between the synthesis of lipids and that of gramicidin C is discussed. 相似文献
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Summary Germinating spores of the fungus Botryodiplodia theobromae incorporated guanine-8-C14 into both the nuclear DNA and mitochondrial DNA fractions. Ethidium bromide inhibited the synthesis of mitochondrial DNA without having a significant effect on nuclear DNA synthesis or on the rate and extent of spore germination. Rates of leucine and uracil incorporation and of oxygen uptake were not significantly affected by ethidium bromide until germination was nearly completed. Mitochondrial DNA synthesis is apparently not required for germination of the spores of B. theobromae but is probably essential to continued vegetative growth.Abbreviations DNA
deoxyribonucleic acid
- mit-DNA
mitochondrial DNA
- nuc-DNA
nuclear DNA
- RNA
ribonucleic acid
- EB
ethidium bromide
- Tris
tris (hydroxymethyl)aminomethane
Published with the approval of the Director as Paper No. 3331, Journal Series, Nebraska Agricultural Experiment Station. Research reported was conducted under Project No. 21-17. Paper No. 7877, Scientific Journal Series, Minnesota Agricultural Experiment Station. 相似文献
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Ribonucleic acid synthesis during fungal spore germination 总被引:9,自引:0,他引:9
D W Hollomon 《Journal of general microbiology》1970,62(1):75-87
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Sequence of events during Bacillus megaterim spore germination 总被引:4,自引:10,他引:4
Levinson, Hillel S. (U.S. Army Natick Laboratories, Natick, Mass.), and Mildred T. Hyatt. Sequence of events during Bacillus megaterium spore germination. J. Bacteriol. 91:1811-1818. 1966.-An integrated investigation of the sequence of events during the germination of Bacillus megaterium spores produced on three different media-Liver "B" (LB), synthetic, and Arret and Kirshbaum (A-K)-is reported. Heat-activated spores were germinated in a mixture of glucose and l-alanine. For studies of dipicolinic acid (DPA) release and increase in stainability and phase-darkening, germination levels were stabilized by the addition of 2 mm HgCl(2). Heat resistance was measured by conventional plating techniques and by a new microscopic method. The sequence (50% completion time) of LB spore germination events was: loss of resistance to heat and to toxic chemicals (3.0 min); DPA loss (4.7 min); stainability and Klett-measured loss of turbidity (5.5 min); phase-darkening (7.0 min); and Beckman DU-measured loss of turbidity (7.2 min). The time difference between 50% completion of stainability and complete phase darkening was 1.5 min, in excellent agreement with the microgermination time of 1.49 min as determined by observation of spores darkening under phase optics. Alteration of the sporulation medium modified the 50% completion times of these germination events, and, in some cases, their sequence. In the A-K spores, the rates of loss of heat resistance and DPA were substantially higher than those of the other germination events, whereas in spores produced in the LB and synthetic media all germination events followed an approximately parallel time course. This is discussed from the point of view of spore population heterogeneity and germination mechanisms. 相似文献
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Gramicidin-S-negative mutants of Bacillus brevis ATCC9999 have been isolated with a remarkly higher yield after ethidium bromide or acridine orange treatment, than after N-methyl-N'-nitro-N-nitrosoguanidine treatment. Four (MIV, Smr170, R5 and EB 16) of 38 isolated mutants were characterized with respect to the lesion in gramicidin-S-synthesizing activity. The mutants sporulate to the same extent as the parental strain except mutant Smr 170 which sporulates less. However, mutant spores were more heat-sensitive and possessed a reduced level of dipicolinic acid content. No significant difference was observed in the germination time of wild-type and mutant spores. All spores germinated after 80--110 min, but the outgrowth time was different: all gramicidin-S-negative mutants grew out immediately after germination whereas wild-type spores required a lag period of 9--10 h. When the mutants were allowed to sporulate in the presence of gramicidin S, the spores were found to be heat-resistant and their outgrowth postponed to the same period as the parent spores. The addition of gramicidin also eliminated the deficiency of dipicolinic acid. A new class of gramicidin-S-negative mutant, R5, which only activates L-valine and L-leucine, is described. A possible biological function of gramicidin S in the heat-resistance and in the timing of spore outgrowth is discussed. 相似文献