Production of thermostable and neutral glucoamylase using immobilized <Emphasis Type="Italic">Thermomucor indicae-seudaticae</Emphasis>

Thermomucor indicae-seudaticae was immobilized in alginate, κ-carrageenan, agarose, agar, polyacrylamide and loofah (Luffa cylindrica) sponge (as such or coated with alginate/starch/Emerson YpSs agar), and used for the production of glucoamylase in submerged fermentation. The mycelium developed from alginate-immobilized sporangiospores secreted higher glucoamylase titres (22.7 U ml⁻¹) than those immobilized in other gel matrices and the freely growing mycelial pellets (18.5 U ml⁻¹). Loofah network provided a good support for mycelial growth, but the enzyme production was lower than that attained with alginate beads. Glucoamylase production increased with inoculum density and the optimum levels were achieved when 40 calcium alginate beads (∼5 × 10⁶ immobilized spores) were used to inoculate 50 ml production medium. The alginate bead inoculum displayed high storage stability at 4°C and produced comparable enzyme titres up to 120 days. The glucoamylase production by hyphae emerged from the immobilized sporangiospores was almost stable over eight batches of repeated fermentation. Scanning electron micrographs of alginate beads, after batch fermentation, revealed extensive mycelial growth inside and around the beads.     

Combined use of growth rate correlated and growth rate independent promoters for recombinant glucoamylase production in Fusarium venenatum

Fusarium venenatum JeRS 325, a strain which produces recombinant glucoamylase under control of a growth rate independent promoter was transformed with a plasmid carrying the Aspergillus niger glucoamylase gene under control of its own growth rate correlated promoter. Some disruption of the original recombinant genes occurred and at pH 5.8 the double transformant did not produce as much glucoamylase as JeRS 325 in batch culture. However, the double transformant still produced as much glucoamylase as JeRS 325 in fed-batch cultures, illustrating the potential for the combined use of growth rate independent and dependent promoters to improve production of recombinant proteins in fed-batch culture systems.     

High expression and efficient secretion of Rhizopus oryzae glucoamylase in the yeast Saccharomyces cerevisiae

Summary The expression and secretion of Rhizopus oryzae glucoamylase were studied in the yeast Saccharomyces cerevisiae. Rhizopus oryzae glucoamylase was highly expressed and efficiently secreted into a medium to a high level (above 300 mg/l) under control of a yeast promoter and the original signal sequence. Excess expression of the secretable glucoamylase with high copy number plasmid slightly decreased growth of the transformant cells in glucose medium but not in fructose medium.     

Growth and mycelial strand production of Rigidoporus lignosus with various nitrogen and carbon sources

Growth and differentiation of mycelial strands in Rigidoporus lignosus have been shown to depend on suitable combinations of the pH of the media and the nature of the nitrogen and carbon sources. Amino acids as sole nitrogen sources gave rise to vegetative mycelium. At pH 4.5, growth and mycelial strand differentiation required asparagine, as the fungus failed to grow in the absence of this amino acid. However, at pH 6, differentiation of strands occurred appreciably in asparagine-deficient media, suggesting a close balance between pH and amino acid requirements. Ammonium was required for strand differentiation, while nitrate, as a sole nitrogen source, maintained the fungus undifferentiated. Of the carbohydrates tested, only glucose, fructose and mannose supported strand differentiation. Starch was found to be particularly effective in promoting growth of vegetative mycelium. Strand differentiation required more specific conditions than growth of the vegetative mycelium.     

源自不同寄主的灰葡萄孢生物学特性的比较研究

本研究以分离自番茄、辣椒、草莓、葡萄的灰葡萄孢Botrytis cinerea为供试菌株,从生长温度、pH适应性、碳源、氮源营养利用等方面对不同寄主来源的灰葡萄孢菌株的生物学性状进行了比较研究。结果表明,5个不同寄主来源的灰葡萄孢菌株的菌丝生长温度范围相同,均为0-35℃;但它们的最适生长温度和分生孢子致死温度存在差异,来自和县番茄菌株HX12最适生长温度为20℃,分生孢子致死温度为47℃ 10min,其余最适生长温度均为25℃,分生孢子致死温度均为48℃ 10min;不同菌株在相同温度下的生长速率有显著差异。pH对不同寄主来源灰葡萄孢菌株菌丝生长的影响存在差异,来自长丰辣椒的菌株LJ菌丝在pH2-9的范围内均能生长,以在pH3-6.5时生长较快,pH6时最快;其余4个菌株在pH2-12的范围内均能生长,以在pH3-9时生长较快,pH6左右最快。不同碳源、氮源营养对灰葡萄孢菌株菌丝生长和分生孢子产生均有显著影响,不同寄主来源的菌株间在碳源、氮源营养利用差异均极显著。在相同碳源、氮源营养条件下,不同寄主来源的菌株的线性生长、菌丝干重和分生孢子产量均有显著差异。     

蓝光促进黑曲霉分生孢子发育和产糖化酶的研究

以黑暗为对照 ,研究了不同光质对黑曲霉产糖化酶及生长发育的影响。持续蓝光作用下 ,孢子萌发后菌丝较粗 ,菌丝细胞顶端膨大显著 ,菌丝细胞膜的通透性增加 ,残糖消耗快 ,孢子和孢子穗增大。在 3(4d时 ,蓝光下菌丝产糖化酶活力最高达 6 6 0 (30U mL ,比黑暗高出了 15. 4 % ,生物量增加了 4 9. 4 8% ,菌丝细胞可溶性蛋白含量提高了10 0. 5 6 % ,尤其是在开始产孢子的阶段 ,蓝光下黑曲霉产糖化酶活力、生物量有很大提高。研究表明 ,蓝光明显促进黑曲霉分生孢子发育和产孢阶段包括糖化酶在内的多种淀粉酶活力的迅速增加。     

不同物质对白鬼笔菌丝生长的影响

本文研究了不同物质对白鬼笔菌丝生长的影响.采用平板培养法,以白鬼笔菌株Phallus impudicus-1为供试菌株,分析了 5种物质对白鬼笔菌丝生长的影响.供试碳源中,当以红糖为碳源时,白鬼笔菌丝生长速率最快,为1.445mm/d,蔗糖和葡萄糖次之;供试氮源中,当以酵母膏为氮源时,白鬼笔菌丝浓密,菌丝生长速率最快,...     

Growth and glucoamylase production by the thermophilic fungusThermomyces lanuginosus in a synthetic medium

Summary The production of glucogenic amylase from the thermophilic fungus Thermomyces lanuginosus was studied in shake flasks and laboratory fermentors. As conidia were not able to germinate in media without yeast extract, pregerminated conidia were applied as inoculum. By this procedure it was possible to use different NH _inf4 ^sup+ salts as the sole source of nitrogen for growth and amylase formation in a synthetic medium. In pH-controlled fermentors a fourfold increase in the extracellular glucogenic amylase activity was obtained with (NH₄)H₂PO₄ as the nitrogen source as compared with yeast extract. However, by fractionation of these activities, comparable yields of partially purified glucoamylases were obtained. The glucoamylase preparation from fermentations with either of the nitrogen sources had a temperature optimum at 70° C and showed similar thermal stability. By incubation without substrate at 60° C. 90% of the activity was still present after 5 h. At 70° C, 50% of the activity was retained after 30 min incubation. Offprint requests to: I. Hassum     

Expression of glucoamylase gene usingSUC2 promoter inSaccharomyces cerevisiae

Summary The cloning of glucoamylase geneSTA using theSUC2 promoter intoSaccharomyces cerevisiae was performed. The signal sequence ofSTA gene was used for the secretion of glucoamylase protein. The plasmid constructed in this way was named YEpSUCSTA and its expression was identified. The expression of YEpSUCSTA was repressed in the presence of glucose in growth medium, but derepressed when glucose became depleted. YEpSUCSTA showed the similar efficiency of glucoamylase secretion as YEpSTA-F which has the entireSTA gene. Glucoamylase activity in starch-glucose medium was largely increased because cell mass and plasmid stability were high in biosynthesis phase compared to extracellular glucoamylase activities in media which starch or glucose was the only carbon source.     

Evolution of a recombinant (gucoamylase-producing) strain of Fusarium venenatum A3/5 in chemostat culture

Fusarium venenatum JeRS 325 is a transformant of strain A3/5 which produces Aspergillus niger glucoamylase (GAM) under the control of a Fusarium oxysporum trypsin-like protease promoter. The evolution of JeRS 325 was studied in glucose-limited chemostat cultures grown on NaNO3 or (NH4)2SO4 as the nitrogen source. Thirteen mutants which were more highly branched and four mutants which were more sparsely branched than the parental strain were isolated from the NaNO3 chemostat. The highly branched mutants detected in this chemostat did not displace the sparsely branched population. The mutants isolated from the NaNO3 chemostat complemented representative strains previously isolated from glucose-limited chemostat cultures of F. venenatum A3/5 grown on (NH4)2SO4, but showed little complementation between themselves. By contrast, a highly branched mutant isolated from the (NH4)2SO4 chemostat culture displaced the sparsely branched mycelial population. None of the mutants isolated from the NaNO3 or (NH4)2SO4 chemostats produced as much GAM as JeRS 325. Southern blot analysis showed that all except one mutant had lost copies of both the glucoamylase and the acetamidase (the selectable marker) genes. However, specific GAM production was not necessarily correlated with the extent of glaA gene loss observed. Further, 10 of the mutants had lost the ability to grow on acetamide as the sole nitrogen source, although they retained copies of the amdS gene. In competition studies, mutants which could not utilize acetamide displaced mutants which could. The presence of foreign DNA in JeRS 325 resulted in a reduced specific growth rate (compared to A3/5), but the presence of the foreign DNA did not prevent the evolution of the strain or the isolation of mutants which had improved growth rates.     

Effect of carbon and nitrogen sources on glucoamylase production inLactobacillus brevis

A strain ofLactobacillus brevis produced extracellular glucoamylase. Induction of the glucoamylase occurred when saccharides such as starch, dextrin, maltose, mannitol and sucrose were employed as sole carbon sources. Synthesis of the amylase also occurred when soybean extract and peptone were used as sole nitrogen sources. The organism could be employed as a starter culture for local food fermentation.     

Effect of the physiological conditions on alpha-amylase and glucoamylase formation by a selected strain of Aspergillus oryzae

The production of alpha-amylase and glucoamylase by a selected strain of Aspergillus oryzae was investigated using different carbon and nitrogen sources. The best and most economic fermentation medium for the production of the both amylases in submerged cultures had the following composition (in %): defatted rice brain, 8; corn steep liquor, 3; MgSO4 X 7H2O, 0.1; KH2PO4, 0.1; CaCl2, 0.1. The optimum pH was 5.0. The optimal conditions for biosynthesis of the amylases were as follows: cultivation at 28 degrees C for 96 h using the 0.5% mycelial suspension as an inoculum.     

三种香蘑属野生食用菌菌株的培养条件优化

【背景】供试菌株分别是分离自山西省宁武县管涔山的肉色香蘑Lepista irina、斑褶香蘑L. panaeolus和山西省蒲县五鹿山的紫丁香蘑L. nuda 3种野生食用菌的子实体。【目的】获得3种野生食用菌的最佳培养条件。【方法】以菌丝生长速度为指标研究不同碳源、氮源、碳氮比、pH和培养温度等各因素对菌丝生长的影响,根据Box-Benhnken中心组合试验设计原理,采用3因素3水平的响应面法确定使菌丝体达到最快生长速度的最佳培养碳源、氮源和pH。【结果】肉色香蘑在葡萄糖20.9 g/L、土豆196.47 g/L、pH 6.0、培养温度21 °C的条件下,菌丝日均生长速度达到最大,为1.13 mm/d;斑褶香蘑在甘露醇17.4 g/L、酵母膏8.1 g/L、B族维生素0.1 g/L、K2HPO4 2.5 g/L、MgSO4 2.5 g/L、pH 7.9、培养温度25 °C的条件下,菌丝日均生长速度达到最大,为0.73 mm/d;紫丁香蘑在土豆200 g/L、可溶性淀粉20.5 g/L、KNO3 2.1 g/L、K2HPO4 2.5 g/L、MgSO4 2.5 g/L、B族维生素0.1 g/L、pH 7.0、培养温度25 °C的条件下,菌丝日均生长速度达到最大,为2.38 mm/d。【结论】获得了3种香蘑属菌株的最佳培养条件,为后续优质野生食用菌的引种驯化积累了相关数据和资源。     

Effect of various organic compounds on synthesis of glucoamylase by an isolated strain Penicillium italicum

Yeast extract (0.5%) stimulates the production of glucoamylase and cell synthesis while methylene blue (0.1 mM) activates the synthesis of glucoamylase. Studies on the metabolic changes during fermentation of glucoamylase in a selected medium by P. italicum show that the rate of production of glucoamylase and cellular growth are greatly accelerated between 48 and 168 hr. Rapid growth of cells during this period may account for enhanced utilization of maltose and NH4NO3 from the medium. The acid production remains constant from 48 to 144 hr. Different forms of nitrogen decrease steadily. Although methylene blue stimulates the production of glucoamylase in the broth it has practically no effect on the rate of utilization of amino and total nitrogen from the broth.     

Bioenergetic consequences of glucoamylase production in carbon-limited chemostat cultures ofAspergillus niger

Aspergillus niger has been grown in glucose- and maltose-limited continuous cultures to determine the bioenergetic consequences of the production of the extracellular enzyme glucoamylase. Growth yields (g biomass per mol substrate) were high, indicating that growth was very efficient and protein production for biomass was not exceedingly energy consuming. It has been found that the energy costs for the production of this extracellular enzyme is very high. Depending on the efficiency of energy conservation the glucoamylase protein yield on ATP is between 1.3 and 2.6 g protein per mol ATP, which is equal or less than 10% of the theoretical maximum of 25.5. These high energy costs most probably have to be invested in the process of excretion. A comparison between an industrial over-producing strain and the wild typeAspergillus niger showed that this over-producing strain most probably is a regulatory mutant. Two regions of specific growth rates could be determined (one at specific growth rates lower and one at specific growth rates higher than 0.1 h^-1), which are characterized by differences in mycelium morphology and a significant deviation from linearity in the linear equation for substrate utilization. Analysis of the region of specific growth rates higher than 0.1 h^-1 yielded maintenance requirements of virtual zero. It has been concluded that for a good analysis of the growth behaviour of filamentour fungi the linear equation for substrate utilization is not suitable, since it contains no term for the process of differentiation.     

Comparative studies on extracellular protease secretion and glucoamylase production by free and immobilized <Emphasis Type="Italic">Aspergillus niger</Emphasis> cultures

The effects of cell immobilization on the secretion of extracellular proteases and glucoamylase production by Aspergillus niger were investigated under a variety of immobilization techniques and culture conditions. Immobilization was achieved by means of cell attachment on metal surfaces or spore entrapment and subsequent growth on porous Celite beads. Free-suspension cultures were compared with immobilized mycelium under culture conditions that included growth in shake flasks and an airlift bioreactor. Cell attachment on metal surfaces minimized the secretion of proteases while enhancing glucoamylase production by the fungus. Growth on Celite beads in shake-flask cultures reduced the specific activity of the secreted proteases from 128 to 61 U g⁻¹, while glucoamylase specific activity increased from 205 to 350 U g⁻¹. The effect was more pronounced in bioreactor cultures. A reduction of six orders of magnitude in protease specific activities was observed when the fungus grew immobilized on a rolled metal screen, which served as the draft tube of an airlift bioreactor. Received 29 October 2001/ Accepted in revised form 14 June 2002     

Kinetics of cell growth and heterologous glucoamylase production in recombinant Aspergillus nidulans

In the work, a study of cell growth and the regulation of heterologous glucoamylase synthesis under the control of the positively regulated alcA promoter in a recombinant Aspergillus nidulans is presented. We found that similar growth rates were obtained for both the host and recombinant cells when either glucose or fructose was employed as sole carbon and energy source. Use of the potent inducer cyclopentanone in concentrations greater than 3 mM resulted n maximum glucoamylase concentration and maximum overall specific glucoamylase concentration over 80 h of batch cultivation. However, cyclopentanone concentrations in excess of 3 mM also showed an inhibitory effect on spore germination as well as fungal growth. In contrast, another inducer, threonine, had no negative effect on spore germination even when concentrations of up to 100 mM were used with either glucose or fructose as carbon source. Glucoamylase synthesis in the presence of glucose plus either inducer did not begin until glucose was totally depleted, suggesting strong catabolite repression. Similar results were obtained when fructose was employed, although low levels of glucoamylase were detected before fructose depletion, suggesting partial catabolite repression. The highest enzyme concentration (570 mg/L) and overall specific enzyme concentration (81 mg/g cell) were observed in batch culture when cyclopentanone was the inducer and fructose the primary carbon source. A maximum glucoamylase concentration of 1.1 g/L and an overall specific glucoamylase concentration of 167 mg/g cell were obtained in a bioreactor using cyclopentanone as the inducer and limited-fructose feeding strategy, which nearly doubles the glucoamylase productivity from batch cultures. (c) 1993 John Wiley & Sons, Inc.     

An immunological approach to quantifying the saprotrophic growth dynamics of Trichoderma species during antagonistic interactions with Rhizoctonia solani in a soil-less mix

Studies of the saprotrophic growth dynamics of Trichoderma species and their fungal hosts during antagonistic interactions are severely hampered by the absence of methods that allow the unambiguous identification and quantification of individual genera in complex environments such as soil or compost containing mixed populations of fungi. Furthermore, methods are required that allow discrimination between active hyphal growth and other components of fungal biomass such as quiescent spores that are produced in large numbers by Trichoderma species. This study details the use of monoclonal antibodies to quantify the saprotrophic growth dynamics of the soil-borne plant pathogen Rhizoctonia solani and biological control strains of Trichoderma asperellum and Trichoderma harzianum during antagonistic interactions in peat-based microcosms. Quantification was based on the immunological detection of constitutive, extracellular antigens that are secreted from the growing tip of Rhizoctonia and Trichoderma mycelium and, in the case of Trichoderma harzianum, from quiescent phialoconidia also. The Trichoderma-specific monoclonal antibody (MF2) binds to a protein epitope of the enzyme glucoamylase, which was shown by immunofluorescence and immunogold electron gold microscopy studies of Trichoderma virens in vitro to be produced at the origin of germ tube emergence in phialoconidia and from the growing tip of germ tubes. In addition, a non-destructive immunoblotting technique showed that the enzyme was secreted during active growth of Trichoderma asperellum mycelium in peat. The Rhizoctonia solani-specific monoclonal antibody (EH2) similarly binds to a protein epitope of a glycoprotein that is secreted during active mycelial growth. Extracts derived from lyophilized mycelium were used as a quantifiable and repeatable source of antigens for construction of calibration curves. These curves were used to convert the absorbance values obtained in ELISA tests of peat extracts to biomass equivalents, which allowed comparisons of the saprotrophic growth dynamics of the pathogen and antagonists to be made in single or mixed species microcosms. Trichoderma species were able to compete successfully with R. solani for nutrients and to prevent saprotrophic growth of the pathogen. Specificity of the Trichoderma quantitative assay was tested in non-sterile soil-based microcosms artificially inoculated with T. asperellum. The assay was highly specific and only detected T. asperellum population dynamics. No cross-reactivity was found with extracts from soil samples containing contaminant fungi.     

Glutamine requirement for aerial mycelium growth in Neurospora crassa

Five amino acids are accumulated during vegetative growth of Neurospora crassa, particularly.during the prestationary growth phase. Alanine, glutamine, glutamate, arginine and ornithine.comprised over 80% of the total amino acid pool in the mycelium. Amino acid pools of different amino acid auxotrophs were followed during the partial transformation of a mycelial mat into an aerial mycelium. The mycelial mat under starvation and in direct contact with air rapidly formed aerial mycelium, which produced thereafter a burst of conidia. During this process,glutamine and alanine in the mycelial mat were consumed more rapidly than other amino acids;in the growing aerial mycelium, glutamate and glutamine were particularly accumulated. Of the amino acids that were initially accumulated in the mycelial mat, only a high glutamine pool was required for aerial mycelium growth induced by starvation. This requirement for glutamine could not be satisfied by a mixture of the amino compounds that are synthesized via glutamine amidotransferase reactions. It is proposed that glutamine serves as a nitrogen carrier from the mycelial mat to the growing aerial mycelium.