Ca2+-dependent induction of conidiation in submerged cultures of Trichoderma viride

The presence of Ca2+ (up to 0.1 mol/L) in the cultivation media was found to induce the formation of conidia in submerged mycelia of Trichoderma viride in a concentration-dependent manner. Ca2+ dramatically stimulated conidiation after 70 h of cultivation. The effect was present in the dark, and illumination stimulated it only marginally. Low (less than 100 micromol/L) Ca2+ concentrations induced the formation of chlamydospores. Sr2+ could substitute Ca2+ in conidiogenesis with lower efficiency (almost 2 orders of magnitude), while the efficiency of Mg2+, Mn2+, or Ba2+ was lower by almost 3 orders of magnitude. Our results demonstrate that mycelial Ca2+ homeostasis has powerful effects on the conidiation and mycelial morphogenesis in T. viride, and they suggest that there is an additional mechanism of conidiation in addition to those induced by light and starvation.     

Changes in properties of glutamate transport in Trichoderma viride vegetative mycelia upon adaptation to glutamate as carbon source

The U-(14)C-labelled glutamate uptake was measured in both sucrose- and glutamate-grown mycelia of Trichoderma viride. The biomass yield was five-fold lower with glutamate as a sole carbon source. The rate of glutamate transport measured at a glutamate concentration of 1 mM remained unchanged in glutamate-grown mycelia whereas the properties of the glutamate transport were substantially changed compared to sucrose-grown mycelia. The glutamate uptake in both sucrose- and glutamate-grown mycelia was inhibited by an uncoupler (3,3',4',5-tetrachlorosalicylanilide) but the inhibitory efficiency was higher in the latter. The affinity of the permease to glutamate increased approximately five-fold in the glutamate-grown mycelia (about 76 microM compared to about 16 microM). The pH optimum for glutamate uptake was 4 in sucrose-grown mycelia but the glutamate-grown mycelia had two pH optima, one at pH 4 and the second between pH 6 and 7. The inhibition of glutamate uptake by other amino acids yielded different inhibitory patterns in the two mycelia under study. The glutamate uptake in mycelia of different ages also showed differences in both transport rate and temporal pattern. The results show that the growth of mycelia on glutamate led to the appearance of an additional permease with different properties and suggest that only this permease is operating in mycelia grown on glutamate.     

Culture medium improvement for Isaria fumosorosea submerged conidia production

Submerged conidia and blastospores of the entomopathogenic fungus Isaria fumosorosea are produced in several liquid culture media. However, yields and the ecological fitness of these propagules vary according to culture media composition. In most culture media, hyphae, blastospores and submerged conidia are white but we found that in some media they develop a brown pigmentation. A dark pigment was extracted from brown-pigmented propagules and analyzed by IR spectroscopy. Adsorption bands coincided to those characteristics of melanins.Hadamard's matrices were employed in order to increase submerged conidia yields and brown pigmentation of fungal propagules. Media containing 20–30 mg/l of FeSO₄·7H₂O and 6–12 mg/l of CuSO₄·5H₂O allowed reaching the highest pigmentation (9 in a hedonic scale). A maximal concentration of submerged conidia of 1.0 (±1.2) × 10¹² cell/l was achieved after 120 h of liquid culture in a improved culture medium, containing 25 ml/l of Polyethylene glycol (MW 200), substance which enhanced submerged conidia production, reducing free mycelia or mycelial pellets formation. In the improved medium, it was estimated that more than 60% of produced biomass corresponded to submerged conidia and blastospores, while in other media, mycelia were the main product (80–97%).     

Effect of inhibitors of enzymatic DNA methylation on the formation of reproductive structures and carotenoid production in Neurospora crassa]

The effect of inhibitors of DNA methylation on light-sensitive developmental stages of the filamentous fungus Neurospora crassa was studied. Under conditions of nitrogen starvation, when blue light induced protoperithecia development and inhibited conidia formation, 5-azacytidine (3-300 microM) inhibited protoperithecia formation and stimulated conidia formation (a 700-fold increase after light induction). After treatment of the mycelium with 5-azacytidine, the protoperithecia formation was accompanied by inversely proportional changes in the formation of conidia, both in the dark and after illumination. In the mycelium cultivated on the Vogel's medium, 5-azacytidine (up to 30 microM) and methotrexate (up to 3 microM) stimulated the light-induced carotenoid synthesis by 30%, whereas higher concentrations of these agents were toxic to carotenoid synthesis and growth.     

Light-driven diurnal zonation in the filamentous fungus Fusarium solani

Zonation in growing mycelia of Fusarium solani was induced by diurnal light/dark cycles. Only those parts of the hyphae that grew in darkness for less than 20 hours developed a zone of conidia after illumination. In continuous darkness, in continuous illumination, or after a transition from light to darkness, a conidiation zone failed to appear. Only light periods exceeding a few seconds but lasting less than 21 hours during a 24 hour light/dark cycle induced zonation. This zonation was not caused by periodic staling of the growth medium.     

Culture medium improvement for Isaria fumosorosea submerged conidia production

Submerged conidia and blastospores of the entomopathogenic fungus Isaria fumosorosea are produced in several liquid culture media. However, yields and the ecological fitness of these propagules vary according to culture media composition. In most culture media, hyphae, blastospores and submerged conidia are white but we found that in some media they develop a brown pigmentation. A dark pigment was extracted from brown-pigmented propagules and analyzed by IR spectroscopy. Adsorption bands coincided to those characteristics of melanins.Hadamard's matrices were employed in order to increase submerged conidia yields and brown pigmentation of fungal propagules. Media containing 20–30 mg/l of FeSO₄·7H₂O and 6–12 mg/l of CuSO₄·5H₂O allowed reaching the highest pigmentation (9 in a hedonic scale). A maximal concentration of submerged conidia of 1.0 (±1.2) × 10¹² cell/l was achieved after 120 h of liquid culture in a improved culture medium, containing 25 ml/l of Polyethylene glycol (MW 200), substance which enhanced submerged conidia production, reducing free mycelia or mycelial pellets formation. In the improved medium, it was estimated that more than 60% of produced biomass corresponded to submerged conidia and blastospores, while in other media, mycelia were the main product (80–97%).     

Gallotannin hydrolysis by immobilized fungal mycelia in a packed bed bioreactor.

Hydrolysis of gallotannin to gallic acid by immobilized mycelia of Aspergillus niger MTCC 282, Aspergillus fischerii MTCC 150, Fusarium solani MTCC 350 and Trichoderma viride MTCC 167 in a packed bed bioreactor was studied. Fungal mycelia preinduced with 5 g L-1 gallotannin were immobilized in calcium alginate gel (1.5%) and the resultant beads were packed in a column to a bed volume of 175 mm3. Gallotannin dissolved in distilled water was passed through the column and the eluate was recycled after adjusting pH to 6 with ammonium hydroxide (10%). Maximum hydrolysis of gallotannin was recorded by immobilized mycelia of F. solani and T. viride at 35 degrees and 45 degrees C after 175 and 60 min of residency period respectively. Optimum substrate concentration required for maximum hydrolysis was 10 g L-1 at pH 5 for both the fungi. Immobilized mycelia of A. niger and A. fischerii revealed maximum operational stability. Loss of activity after eighth run was in the order of-A. niger (no loss), A. fischerii (7.5%), F. solani (18%) and T. viride (18%). Stability in terms of retention of enzyme activity after 150 days of storage at 4 degrees C was A. niger (58%), A. fischerii (26.8%), F. solani (83%) and T. viride (85.1%).     

Evidence for presence of peptide alpha-amidating activity in pancreatic islets from newborn rats.

The peptide alpha-amidating activity of a homogenate of pancreatic islets from 5-7-day-old rats was investigated, using as substrate a glycine-extended tripeptide (D-Tyr-Val-Gly). The islet homogenates had a marked amidating activity, with a Km of 57 microM, a Vmax. of 185 pmol/h per mg and a pH optimum of 7.0. This activity was dependent on the presence of ascorbic acid (in the reduced form) and Cu2+, the optimum concentrations being 4 mM and 40 microM respectively. On fractionation of the homogenate, the highest specific activity was found in the soluble fraction. Exocrine pancreatic tissue showed very low levels of amidating activity.     

Resolution and purification of taurine- and GABA-synthesizing decarboxylases from calf brain

The present work describes a procedure for the co-purification of cysteine sulfinate decarboxylase (CSAD) and glutamate decarboxylase (GAD) from calf brain. A crude enzyme preparation was first made from brain homogenate by acid precipitation and ammonium sulphate fractionation. Subsequent fractionation of the decarboxylase preparation by cation exchange chromatography on CM-Sepharose CL-6B revealed the existence of a specific CSAD enzyme, which has no GAD activity. The GAD activity peak was found to possess CSAD activity. Further fractionation by gel filtration on Sephacryl S-200 separated the specific CSAD activity into two enzyme forms, one of them having a molecular weight of 150,000 and the other of 71,000. GAD activity was eluted from the gel filtration column in a single peak (mol wt 330,000) and showed CSAD activity. The purification of the specific CSAD enzyme was 920-fold and that of GAD activity 850-fold as compared with the starting material, whole calf brain. SDS gel electrophoresis indicated that the purified CSAD and GAD enzymes consisted of two or more subunits. The crude decarboxylase preparation was analysed by isoelectric focusing in ultra-thin polyacrylamide gel in the pH range 3.5-10.0. The most active fraction of CSAD indicated an isoelectric point of 6.5 and that of GAD 6.8. The pH optimum for CSAD activity in the crude preparation was 7.2 and that for GAD activity 7.9.     

Regulation and glutamic acid decarboxylase during Neurospora crassa conidial germination.

Glutamic acid decarboxylase (GAD) from Neurospora crassa was assayed in dormant and germinating conidia that had been permeabilized by toluene and methanol. N. crassa conidia contained 10 times the GAD activity found in vegetativemycelia. During conidial germination, GAD activity rapidly decreased to low levels before germ tubes appeared. GAD activity in germinating conidia closely followed the decreasing rate of glutamic acid metabolism. Inhibiting protein synthesis partially blocked the decrease in GAD activity, but eliminating exogenous carbon sources did not alter the initial rate of decrease in this enzyme. However, when conidia were incubated for more than 3 h in distilled water, GAD activity began to increase and eventually reached levels comparable to those in dormant conidia. Either GAD was reversibly inactivated or this enzyme could be synthesized from endogenous storage compounds when conidia were incubated in distilled water. These results are consistent with the hypothesis that GAD is a developmentally regulated enzyme that is responsible for catalyzing the first step in the metabolism of the large pool of free glutamic acid during conidial germination.     

Changes in growth competence of aged <Emphasis Type="Italic">Trichoderma viride</Emphasis> vegetative mycelia

Identical masses of submerged Trichoderma viride mycelia of various ages were used as inoculum for a second submerged cultivation lasting for 24 h. It was found that the growth yield of secondary culture was dependent on the age of inoculum. The growth yields increased when the age of primary culture was less than 3 d, and decreased down to zero when older mycelia were inoculated. The mycelia were living even after 1 month of submerged cultivation, as they formed conidia after inoculating onto solid medium. In order to elucidate underlying biochemical processes, developmental changes of specific activities of organellar marker enzymes were measured in the mitochondrial/vacuolar and microsomal fractions of mycelia. These activities changed during the growth of mycelia in a biphasic manner and their time courses were remarkably similar. Only the H⁺-ATPase activity decreased monophasically with the age of mycelia. Membrane-bound proteases of both membrane fractions changed differently upon ageing. These results could not be explained as a consequence of nutrient starvation and indicate that the prolonged submerged cultivation triggers coordinated series of biochemical events which leads to the loss of growth competence.     

Biomass production from Trichoderma viride in nonconventional oat medium

Oatmeal, an alternative, renewable, and low‐cost substrate, was used for the production of Trichoderma viride spores by submerged fermentation. The nonconventional oat medium was only supplemented with potato peptone, which is a green source of nitrogen for the microorganism. Because particles are suspended in the nonconventional oat medium, the characterization was based on viscosity, average particle diameter, size distribution, and porosity of the particles. Because of the complexity of the fungal biomass extraction, the dry weight and protein content were used as methods for quantifying the growth of T. viride. The inversion between the proportion of mycelia and spores was captured in the microscopic image analysis during the fermentation process. After 60 h, spores began to appear, accounting for most of the form present at 120 h of fermentation. The decrease in pH and the increase in glucose concentration during fermentation indicate that glucan hydrolysis occurs and that glucose is released into the medium. The potential for industrial applications of submerged fermentation with oats for biomass production of T. viride is noted in the results. This simple and easily controllable process has several advantages, including the use of low‐cost substrates for the propagation of a microorganism that is widely used in scientific and commercial settings. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 2012     

Study of Trichoderma viride metabolism under conditions of the restriction of oxidative processes

Trichoderma viride was capable of growth and conidiation in the presence of high concentrations of the uncoupler 3,3',4',5-tetrachlorosalicylanilide (up to 100 micromol x L(-1) and of the respiration inhibitor mucidin (up to 100 micromol x L(-1) ) in both submerged and surface cultivation. When vegetative mycelia were cultivated on the solid Czapek-Dox medium with yeast autolysate under an anaerobic and CO2-containing atmosphere, the growth was observed only rarely but the microorganism survived as long as 3 months under these conditions. Major products of metabolism of both aerobic and anaerobic submerged mycelia were identified by means of 1H-NMR measurements. Major products excreted to the medium under aerobic conditions were succinic and citric acids. Major metabolites present in the submerged mycelia were gamma-aminobutyric (and glutamic) acid and alanine. Under anaerobic conditions, citric acid was not excreted into the medium but ethanol appeared. Its production could not be increased upon increasing the sugar concentration. The appearance of secondary metabolites was found to be modified by oxygen availability during the mycelial growth. Results suggest that the vegetative form of T. viride is capable of fermentative metabolism characterized by the production of ethanol and succinate and that the excretion of carboxylic acids is developmentally regulated and modified by oxygen availability.     

Phase-Shifting of Cycles in Level of Serotonin N-Acetyltransferase Activity and Cyclic GMP Content of Cultured Chick Pineal Glands by Methotrexate

Methotrexate at 1 microM stimulated increase of serotonin N-acetyltransferase (NAT) activity in chick pineal glands cultured under each of three conditions of illumination. The peak of the circadian rhythm in NAT activity and the "spike" in content of cyclic GMP were both advanced in pineal glands cultured in the dark from midphotoperiod. In contrast, the time of peak NAT activity in glands cultured in the dark from late photoperiod was unaffected. In addition, methotrexate did not affect times of reaching maximum NAT activities in glands cultured from midphotoperiod in the light or under diurnal illumination. Doubling the concentration of methotrexate also eliminated the lag phase in increase of NAT activity in glands cultured in the dark. However, at a concentration of 5 microM methotrexate the curve depicting increase of NAT activity was biphasic, and neither time nor level of peak NAT activity differed from those of control glands. Results of attempts to demonstrate persistent effects of exposure to methotrexate were inconclusive.     

金针菇在淀粉工业废水中发酵的生理生化特性

以经液化处理的淀粉工业废水作金针菇液体深层发酵的培养基,研究发酵过程中菌球形态、生物量、pH总糖、还原糖、氨态氮、糖化酶、蛋白酶的变化规律,描述了菌体的生长曲线,得到了菌丝体生长的动力学模型。第1～2d为延滞期,第3～8d为快速生长期,第8d后为衰老期。其中第3～6d菌丝体生长最为迅速,酶活力最高,基质消耗最快。发酵过程中pH呈上升趋势。对生理生化各因子之间的相互关系作了讨论。     

微紫青霉菌Penicillium janthinellum菌株GXCR吸附废水中Cd2+的研究

研究了5种不同预处理方式对丝状真菌微紫青霉菌Penicillium janthinellum菌株 GXCR的Cd2+吸附的影响。结果表明,高温（80℃）、去离子水中的匀浆化、匀浆+碱化（NaOH,0.5mol/L）（简称匀浆碱化）和匀浆+30%二甲基亚砜处理均能提高菌体的吸附率,其中匀浆碱化处理后菌体的吸附效果最佳,吸附增量达到117.96%;匀浆+酸化（H2SO4, 0.5mol/L）处理则导致菌体的Cd2+吸附能力显著下降。匀浆碱化菌体吸附符合典型的Langmuir方程,表明该菌对Cd2+的吸附可能是以表面吸附为主的吸附行为。在吸附-解吸附循环4次后匀浆碱化菌体的Cd2+的吸附效率为58.01%。红外光谱分析显示匀浆碱化处理主要影响菌体表面分子的–OH和C=O基团,其中与Cd2+结合的主要基团是–OH。结果也表明,匀浆碱化菌体具有处理电镀废水的潜能。     

Nutritional requirements of mycelial growth and sporulation of several biocontrol fungi in submerged and on solid culture

To develop fungal biopesticides, the nutritional requirements on available culture media that maximize mycelia and spore yields at low cost are essential for their mass-production. The objective of present study was to find the optimal combinations for the most mycelia yield in submerged and the highest spore yield on solid. Have a better understanding of their basic physiology, and have a better yield of mycelia and conidia with short time and low cost will help to provide valuable information for mass production and commercialization.     

Proteolytic activity of Trichoderma viride in mixed culture with Sclerotium rolfsii in soil.

Cultures of Sclerotium rolfsii and Trichoderma viride together in autoclaved soil were assayed at intervals during 8 days of incubation for proteolytic activity (PA) of T. viride. Significant proteolytic activity was detected only in soil containing T. viride (i.e., T. viride alone or S. rolfsii + T. viride); greatest activity occurred between 3 and 4 days after infestation and declined rapidly thereafter. Maximal PA in the mixed-culture soil was accompanied by an increase in soil pH. optimal pH values for PA was 5.5-6.5 with a maximum at 6.0.     

Involvement of a conidial endoglucanase and a plasma-membrane-bound beta-glucosidase in the induction of endoglucanase synthesis by cellulose in Trichoderma reesei

The induction of endo-1,4-beta-glucanase synthesis by Trichoderma reesei QM 9414 was investigated in conidia, mycelia and protoplasts. Cellulose induced endoglucanase synthesis only in conidia, but not in glucose-grown mycelia or protoplasts. Cellooligosaccharides and sophorose induced endoglucanase synthesis in mycelia, conidia and protoplasts. Only conidia exhibited detectable basal endoglucanase levels, whereas beta-glucosidase activity was found in conidia, mycelia and protoplasts. The beta-glucosidase was inhibited in vitro by nojirimycin and glucono-delta-lactone. Addition of either of these inhibitors to the induction medium blocked de noro synthesis of endo-1,4-beta-glucanase with cellulose (conidia) or cellooligosaccharides (protoplasts and mycelia) as inducer, whereas induction by sophorose remained unaffected. The results are consistent with the assumption that basal constitutive levels of endoglucanase and beta-glucosidase are involved in the induction of cellulase synthesis by cellulose in T. reesei.