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1.
Acetyl esterase production by Termitomyces clypeatus   总被引:1,自引:0,他引:1  
Production of acetyl esterase by Termitomyces clypeatus was stimulated by xylan, cellulose, arabinose and arabinose-containing polysaccharides in the growth medium. The culture filtrate was equally active with p-nitrophenyl acetate and acetyl xylan. Acetyl xylan was completely deacetylated by the enzyme. Activity was optimum at pH 6.5 and at 50¡C. The Km values for p-nitrophenyl acetate and acetyl xylan were 0.83 mM and 0.38% (w/v) with Vm of 48 and 55 mmole acetate produced/min.mg protein, respectively.  相似文献   

2.
153 haploids, including 8 prototrophs, 12 biotin prototrophs and 4 biotin auxotrophs were isolated from Y, F and FB strains of the baker's yeast Saccharomyces cerevisiae. Remaining haploids were dependent on vitamins of B group other than biotin. Obtained haploids were characterized by large cell sizes, a or α mating type, the ability to fermentation of sugars and the assimilation of non-fermented carbon sources. Haploids obtained from the yeast of Y and FB strains a good growth in the synthetic medium. Prototrophic haploids, prototrophic haploids with biotin auxotrophs and biotin prototrophs with biotin auxotrophs were crossed. 89 prototrophic hybrids capable of growth in synthetic medium without vitamins were selected out of 178 hybrids obtained. Hybrids are characterized by features typical for baker's yeast; however, not all of them are capable of sporulation. As result of selection, prototrophic hybrids and 16 hybrids characterized by a good increase of biomass in molasses medium were chosen. The efficiency of the biomass of hybrids designated as YY 3040/2, YY 3040/3 and FFB 1910/2 is considerably higher than one obtained from the cultivation of the industrial strain French Mautner (Mf). All hybrids possess adequate enzymatic activity in anaerobic metabolism of saccharose and maltose. Selected prototrophic hybrids were sent out to two yeast factories in the country for experimental propagation.  相似文献   

3.
We tested the usefulness of chlorophyll a fluorescence quenching analysis for the selection of maize parental inbred lines able to produce F1 hybrids with a high CO2 assimilation rate during growth at suboptimal temperature. Fifty inbred lines, grown at 15 °C, showed at 6 °C a broad genetic variability regarding the quantum yield of photosynthetic electron transport (PS2). A decrease of PS2 in sensitive lines was caused more by reduction of the efficiency of excitation energy capture by open photosystem 2 (PS2) reaction centres (Fv'/Fm') than by a drop in photochemical quenching (qP). Selected inbred lines with the highest (H) and the lowest (L) values of PS2 were used for separate crossings in a diallelic arrangement. Twenty-one of H×H hybrids and 21 of the L×L hybrids were grown at 15 °C. The H×H hybrids showed at suboptimal temperature a significantly higher transport of photosynthetic electrons than the L×L hybrids at lower (400) as well as at higher [800 mol(photon) m–2 s–1] irradiance. The mean net photosynthetic rate (P N) in H×H and L×L hybrids amounted to 8.4 and 5.8 (second leaf) and 8.5 and 7.6 mol(CO2) m–2 s–1 (third leaf), respectively. Among the best 20 hybrids with regard to P N (values larger than the average) of second leaves, as many as 15 were derived from H lines (75 % of hybrids), whereas among the best 21 hybrids with regard to P N of the third leaves, 16 were derived from H lines (76 % of hybrids). The intensive P N of H×H hybrids was most often accompanied by less water lost via transpiration in relation to photosynthesis than in the hybrids of L lines. Hence an analysis of chlorophyll a fluorescence quenching enables the selection of inbred lines, which can produce hybrids with improved CO2 fixation and with efficient water management during growth at suboptimal temperature.  相似文献   

4.
Low strength wastewater having chemical oxygen demands (COD) concentrations of 1000, 800, 600 and 400mg/l were treated at 35, 25, 20 and 15¡C using four anaerobic sequencing batch reactors (ASBRs). Reactor 1 was operated at hydraulic retention time (HRT) of 48h, reactor 2 at 24h HRT, reactor 3 at 16h HRT and reactor 4 at 12h HRT. 80 to 99% soluble COD was removed at the various operational conditions, except during 15¡C treatment of 1000 and 800mg/l COD wastewater at 12h HRT and 1000mg/l COD wastewater at 16h HRT, where excessive loss of biological solids occurred. The ASBR process can be an effective process for the treatment of low concentrated wastewaters which are usually treated aerobically with large amount of sludge production and higher energy expenditures.  相似文献   

5.
Cellulase productions in solid state fermentation (SSF) by Trichoderma viride SL-1 were conducted in a column. Periodically oscillating the temperature in the range of 30-50¡C in symmetrical or asymmetrical modes had no adverse effect on productivity. Effective activation of spore germination was found when the spores were treated twice at 30¡C for 30 min. The results are useful in the performances of SSF processes.  相似文献   

6.
Summary A system is described in which spontaneous and chemically-induced mitotic and meiotic hyperploidy can be assayed in the same diploid culture of Saccharomyces cerevisiae. Monitoring gene dosage changes at two loci on chromosome VIII, the test utilizes a leaky temperature-sensitive allele arg4-8 and low level copper resistance conferred by the single copy allele cup1 s. An extra chromosome VIII provides simultaneous increased dosage for both genes, resulting in colonies that are both prototrophic for arginine at 30° C and copper resistant. During mitotic cell divisions in diploids, spontaneous chromosome VIII hyperploids (trisomes and tetrasomes) occur at a frequency of 6.4×10-6 per viable cell. Among ascospores, the spontaneous chromosome VIII disome frequency is 5.5×10-6 per viable spore. The tubulin-binding reagent methyl benzimidazol-2-yl carbamate (MBC) elicits enhanced levels of mitotic and meiotic aneuploidy relative to control levels. The system represents a novel model for examining chromosome behavior during mitosis and meiosis and provides a sensitive and quantifiable procedure for examining chemically induced aneuploidy.  相似文献   

7.
Protoplasts of complementing auxotrophs of Candida albicans can fuse in the presence of polyethylene glycol and generate prototrophic cells. The yields of prototrophs from fusion mixtures depend greatly on the particular combinations of auxotrophies involved but not on other features of the strain backgrounds of protoplasts. The initial cellular products of fusions isolated on selective media are heterokaryons which replicate slowly but also segregate single parental nuclei into blastospores in high frequency. Karyogamy within heterokaryons produces hybrid nuclei which, on segregation, give rise to rapidly growing, uninucleate substrains. Analyses of the substrains show that hybrid nuclei either stabilize as diploid or undergo random loss of chromosomes to stabilize at various levels of aneuploidy prior to segregation. Chromosome losses and radiation induced mitotic crossing-over can effect recombination for parental auxotrophic markers in hybrids; patterns of recombination for ader and arg markers provide the first documented example of chromosomal linkage in C. albicans. Thus, protoplast fusions offer opportunities otherwise unavailable for applying the incisive tools of genetic recombination to analysis of this important, asexual yeast.  相似文献   

8.
Methods for long-term preservation of lily germplasm were examined. t In vitro regenerated bulblets of 10 lily (t Lilium L.) genotypes (Asiatic hybrids, Oriental hybrids, t L. longiflorum and t L. henryi) were stored for 28 months at -2 °C and 25 °C on four different media: 1/4 or full strength Murashige and Skoog nutrients with 9% (w/v) or 6% sucrose. Sprout growth, bulb growth, and viability were determined. The combination of 1/4 strength MS nutrients and 9% sucrose gave the highest reduction in sprout and bulb growth, the highest viability and the highest percentage of regrowth after 28 months of storage. At 25 °C, all lily genotypes survived 28 months of storage under these conditions. At -2 °C, Asiatic and Oriental hybrids survived 28 months of storage, whereas genotypes of t L. longiflorum and t L. henryi survived 6 months of storage, but died during prolonged storage. This revised version was published online in June 2006 with corrections to the Cover Date.  相似文献   

9.
Heterokaryons (hets) of Candida albicans constructed by fusing protoplasts of complementing auxotrophs produce heterogeneous clones on minimal medium consisting of (i) a minority of slow-growing hets, (ii) a preponderance of non-growing, parental-type auxotrophic monokaryons, and (iii) some prototrophic monokaryons bearing hybrid nuclei. Hets grown at a given temperature within the range 25° C to 41° C replate with higher efficiencies at any lower temperature and exhibit progressively declining plating efficiencies as plate temperatures increase beyond that at which they were initially grown. Neither auxotrophic nor prototrophic monokaryons show such responses. Growth of colonies produced by hets, wild-type strains or prototrophic hybrid monokaryons is stimulated by temperatures in the order, 37° C > 30° C > 41° C > 25° C. However, the proportion of hets to auxotrophic monokaryons within individual net clones increases directly from 25° C to 41° C. Though this pattern obtains whether colonies are compared at equivalent sizes or ages, het frequencies decline as colonies age at all temperatures. Appearance of hybrid monokaryons within het clones is unaffected by growth temperature. The relationships of temperatures to plating efficiencies and stabilities of hets are independent of the natures of their complementing auxotrophies or the wild-type backgrounds of their nuclear components and are, therefore, functions of heterokaryosis per se. Modifications of these relationships by selective metabolic antagonists or by growth of hets on different preand post-plating carbon sources indicate that they reflect temperature-dependent properties of mitochondria which are peculiar to hets.  相似文献   

10.
Summary In a strain ofSaccharomyces cerevisiae, acetic acid at concentrations up to 1% (v/v) depressed the tolerance to added ethanol, from 11% (v/v) down to zero, and simultaneously narrowed the temperature range of growth from 3–42°C to 19–26°C. In addition, acetic acid shifted the associative temperature profile of growthand death to lower temperatures, and depressed the growth yield on glucose.  相似文献   

11.
Five thermotolerant, alcohol-producing yeast cultures were isolated from samples obtained from India. Two were identified as ofKluyveromyces marxianus. All five grew on plate-cultures up to 52°C, with maximum growth rates in liquid culture at 40°C. All produced relatively high alcohol concentrations: 5.7 to 7.0% (w/v) at 45°C and 5.0 to 5.5% (w/v) at 50°C when growing on 14.0% (w/v) glucose. All five isolates fermented diluted molasses containing 16.0% (w/v) total sugars, producing 5.6 to 6.0% (w/v) alcohol concentrations. Supplementing the molasses with P, K, Mg and Mn resulted in a 13 to 20% increase in alcohol production at 40°C. The maximum amounts of alcohol produced on supplemented molasses were 7.5 to 8.0 and 6.5 to 7.0% (w/v) at 37°C and 40°C, respectively.  相似文献   

12.
Summary The yeastCandida shehatæ, growing on a mineral medium with vitamins and D-xylose as sole carbon and energy source, tolerated acetic acid up to 0.4% (v/v), at pH 4.5, the temperature range of growth narrowing from 5–34°C to 21–27°C, and the growth yield on D-xylose decreasing to 64%; tolerance to added ethanol dropped from 5% (v/v) to 2% (v/v). Acetic acid concertedly shifted the Arrhenius plots of thermal death and growth to lower temperatures, but left unchanged the former dissociative relations in the temperature profile. The entropy coefficient of acetic acid-enhanced thermal death was 183.3 entropy units. M–1.  相似文献   

13.
To obtain strains that are able to efficiently produce ethanol from different carbohydrates, mainly cellulose hydrolysates, several species of the genus Candida and a Zygosaccharomyces fermentati strain were examined for their ability to utilize cellobiose and produce ethanol, as well as for their thermotolerance and the possibility of genetic manipulation. Candida obtusa and Zygosaccharomyces fermentati tolerated the maximal temperature for growth, possessed the highest cellobiase activity, and offered the possibility of genetic manipulation, although neither of them proved to be a good producer of ethanol. Intergeneric hybrids of Saccharomyces cerevisiae and Z. fermentati were obtained after protoplast fusion. They were selected as prototrophic strains, after isolation of auxotrophic mutants from Z. fermentati and fusion with an S. cerevisiae strain which was also auxotrophic. The hybrids, which appeared at a frequency of 2 X 10(-7), presented characteristics of both parents, such as resistance to certain drugs and the ability to grow with either cellobiose or lactic acid as the sole carbon source; they were very stable, even under nonselective conditions. These hybrids may have important industrial applications as good fermenting strains.  相似文献   

14.
The uptake of isolated nuclei from Vicia hajastana Grossh. cells into protoplasts of an auxotrophic cell line of Datura innoxia P. Mill. was induced under the influence of polyethylene glycol and Ca2+ at pH 6.8. The frequency of nuclear uptake varied from 0.8 to 2.3% and that of the recovery of prototrophic clones from 10-5 to 6·10-4. The prototrophic nuclear fusion products following nuclear uptake could be rescued by initial culture of the protoplasts in non-selective conditions and by the subsequent use of feeder cell layers to support the growth of surviving colonies on a selective medium. The presence of Vicia genomic DNA in some prototrophic clones was confirmed by dot-blot hybridization using Datura and Vicia DNA probes. In certain transformed clones, the recovery of prototrophy was accompanied by the restoration of morphogenetic potential. Welldeveloped shoots typical of wild-type Datura could be regenerated employing an appropriate regeneration medium.Abbreviations MS Murashige and Skoog (1962) - PEG polyethylene glycol  相似文献   

15.
Summary Methods for isolation of hybrids of industrial yeast strains, obtained by PEG-mediated protoplast fusion, using mitochondrial mutations to antibiotic resistance and to the petite condition as markers, are described. One of the industrial prototrophic strains, carrying a rescuable mutation to antibiotic resistance, was converted to the petite form, and protoplasts obtained from it were fused with protoplasts from antibiotic-sensitive prototrophic strains of brewing and distiller's yeasts or with an auxotrophic laboratory strain carrying several chromosomal mutations. The parent of the petite strain was also able to metabolize starch, which was used as an additional character for confirming the hybrid nature of the strains isolated on the basis of their antibiotic resistance.Presented in part at the 5th International Protoplast Symposium held at the Attila Josef University, Szeged, Hungary, July 9–14, 1979  相似文献   

16.
Summary The growth and hyoscyamine production of transformed roots of Datura stramonium have been examined in a modified 14-1 stirred tank reactor in both batch and continuous fermentations on media containing half or full strength Gamborg's B5 salts and at three different temperatures. Under a range of conditions, roots grown on half strength B5 salts with 3% w/v sucrose had a higher dry matter content (up to 8.3% w/w) and a higher hyoscyamine content (up to 0.52 mg·g–1 wet weight) than roots grown on full strength B5 salts with the same level of sucrose (up to 4.6% w/w dry matter and up to 0.33 mg hyoscyamine g–1 wet weight). Growth at 30°C was initially faster than at either 25°C or 35°C and by day 12, the drained weight of roots in the fermentor at 30°C was about fourfold greater than at 25°C and twice that at 35°C. The ultimate hyoscyamine levels attained (approximately 0.5 mg·g–1 wet weight) were similar at both 25°C and 30°C but some 40% lower at 35°C. Final packing densities of 70% w/v were achieved for roots after 37 days growth at 25°C and the highest production rate of 8.2 mg hyoscyamine l–1 per day was obtained for roots grown at 30°C. In continuous fermentation at 25°C, the release of hyoscyamine into the culture medium was low (less than 0.5% w/w of the total) but was up to sevenfold higher in fermentors operated at 30°C or 35°C. Offprint requests to: M. G. Hilton  相似文献   

17.
The inhibitory effects of 20 compounds including purine analogues on the growth of Micrococcus glutamicus No. 534–348, an inosinic acid-producing adenine-auxotroph, and No. 534, a prototrophic strain, were investigated.

A number of strains resistant to each of 6-merca ptoguanine, 6-thioguanine, 8-azaguanine, mitomycin C and sulfanilamide were induced from strain No. 534–348, and their inosinic acid productivities were compared with their parent strain. Among them, MGR-25, α 6-mercaptoguanine-resistant strain, accumulated more inosinic acid than its parent strain. Furthermore, the strain MGR-25 was differentiated in its morphology, frequency of spontaneous reversion to prototrophic type in adenine-deficient medium, and the effectiveness of hypoxanthine to increase the inosinic acid accumulation.  相似文献   

18.
Escherichia coli K-12 was exposed to Quillaja saponaria saponins from various commercial firms (Sigma, Roth and Nor-feed) and to an extract of Yucca schidigera plant powder (DK Sarsaponin 30) at different concentrations (0·05–1·0% w/v). A concentration-dependent response was observed. Quillaja saponaria saponins from Sigma increased growth up to 0·1% (w/v) level, whereas Nor-feed and Roth saponins produced maximum growth at a much higher level (0·5 and 0·75%, w/v, respectively). These results suggest that quillaja saponins from various sources differ in their biological activity, although all three saponins had the same content of vanillin-sulphuric acid reactive moieties. The lyophilized water extract from the DK Sarsaponin powder showed maximum growth at 0·1% (w/v) level. The levels at which maximum growth was observed did not change on subjecting the quillaja or yucca saponins to heat treatment in an autoclave (121 °C for 30 min). All the saponins and the plant extract increased growth of Escherichia coli up to a certain concentration and thereafter decreased growth. In spite of the decreased growth at higher levels of saponins, it was higher compared to the control (without saponin) up to levels of 1% (w/v) for all saponins except Quillaja saponins from Sigma, for which the growth was lower at levels of 0·25% (w/v) and higher. Saponins have the potential to modulate microbial growth in natural and artificial fermenters.  相似文献   

19.
    
Summary InProteus mirabilis the reversion from streptomycin dependence to streptomycinnondependence leads to two types of revertants: about 28% of the spontaneous revertants being prototrophic like the wildtype and 72% being auxotrophic; the majority of these auxotrophic revertants (more than 70%) require the aminoacids isoleucin plus valin for growth on minimal medium. Among induced revertants the relation between the two types is changed: more than 70% of the induced revertants are prototrophic, the remaining part being auxotrophic.According to the presented hypothesis the prototrophic revertants originate by mutation of the allelestr-d tostr-s; the streptomycin nondependence of the auxotrophic revertants is assumed to be the consequence of a suppressor mutation, their genotypical designation then beingstr-d; su-str .To prove this hypothesis without having the possibility of genetic recom bination between these strains, it was tried to isolate the genotypestr-s; su-str by selection of streptomycin nondependent, prototrophic variants out of the auxotrophic revertants. With low frequency (<10–9) clones of this type were found. The critical test of the hypothesis was the comparison of the frequency of occurence of new streptomycin dependent mutants between the wildtype (str-s; su-str +), prototrophic revertants (str-s; su-str +), auxotrophic revertants (str-d; su-str ) and secondary prototrophic revertants (str-s; su-str ) (see table 2). As expected, there was no significant difference in this respect between wildtype and prototrophic revertants; a significant difference, however, was observed between prototrophic and auxotrophic revertants. It was impossible up to now to select new streptomycin dependent mutants fromstr-s; su-str cells, thus indicating the role ofsu-str in suppressing the realisation of the allelstr-d. The suppression ofstr-d appears to be accompanied by the introduction of a block into the synthesis of isoleucin and valin.  相似文献   

20.
Controlling metabolism of engineered microbes is important to modulate cell growth and production during a bioprocess. For example, external parameters such as light, chemical inducers, or temperature can act on metabolism of production strains by changing the abundance or activity of enzymes. Here, we created temperature-sensitive variants of an essential enzyme in arginine biosynthesis of Escherichia coli (argininosuccinate synthetase, ArgG) and used them to dynamically control citrulline overproduction and growth of E. coli. We show a method for high-throughput enrichment of temperature-sensitive ArgG variants with a fluorescent TIMER protein and flow cytometry. With 90 of the thus derived ArgG variants, we complemented an ArgG deletion strain showing that 90% of the strains exhibit temperature-sensitive growth and 69% of the strains are auxotrophic for arginine at 42 °C and prototrophic at 30 °C. The best temperature-sensitive ArgG variant enabled precise and tunable control of cell growth by temperature changes. Expressing this variant in a feedback-dysregulated E. coli strain allowed us to realize a two-stage bioprocess: a 33 °C growth-phase for biomass accumulation and a 39 °C stationary-phase for citrulline production. With this two-stage strategy, we produced 3 g/L citrulline during 45 h cultivation in a 1-L bioreactor. These results show that temperature-sensitive enzymes can be created en masse and that they may function as metabolic valves in engineered bacteria.  相似文献   

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