262 resultados para Trichoderma harzianum
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2009
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2009
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2009
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2009
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Uma alternativa para controle do mofo-branco do feijão (Sclerotinia sclerotiorum, Ss) é o uso de agentes de controle biológico (ACB). Trichoderma sp. (Tr) e Clonostachys rosea (Cr) podem competir, parasitar e produzir metabólitos tóxicos contra fitopatógenos. Avaliou-se a capacidade de três isolados de Tr e um de Cr, previamente selecionados para o controle de Ss, em produzir metabólitos tóxicos contra o patógeno. Os ACB foram crescidos em caldo batata dextrose sob agitação (100 rpm) por sete dias. Após, o caldo foi filtrado a vácuo (membrana bacteriológica 0,22µm) e adicionou-se uma alíquota (2 ml) do filtrado ou de ADE (testemunha) a BDA fundente em placas de Petri. Após o resfriamento, adicionou-se no centro da placa um disco de micélio de Ss. As placas (cinco repetições/tratamento) foram incubadas a 20˚C ou 25˚C. Diariamente mediu-se o diâmetro das colônias até a testemunha atingir as bordas da placa. A 25˚C verificou-se significativa redução (Tukey, 5%) do crescimento micelial de Ss pelos filtrados dos três isolados de Tr (72 a 79%) e por Cr (50%). A 20ºC, apenas dois isolados de Tr inibiram Ss (45 a 65%). Os resultados indicam que os ACB podem atuar por antibiose, porém a eficiência é influenciada pelo ambiente.
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This research is about producing recombinant Trichoderma reesei endoglucanase Cel7B by using Kluyveromyces lactis, transformed with chromosomally integrated Cel7B cDNA, as a host cell (K. lactis Cel7B). Cel7B is one of the glycoside hydrolyze family of proteins that are produced by T. reesei. Cel7B together with other endoglucanases, exoglucanases, and â-glucosidases hydrolyze cellulose to glucose, which can then be fermented to biofuels or other value-added products. The research objective of this MS project is to examine favorable fermentation conditions for recombinant Cel7B enzyme production and improved activity. Production of enzyme on different types of media was examined, and the activity of the enzyme was measured by using different tools or procedures. The first condition tested for was using different concentrations of galactose as a carbon and energy source; however galactose also acts as a potent promoter of recombinant Cel7B expression in K. lactis Cel7B. The purpose of this method is to determine the relationship between production of enzyme with increasing sugar concentration. The second culture condition test was using different types of media: a complex medium-yeast extract, peptone, galactose (YPGal); a minimal medium-yeast nitrogen base (YNB) with galactose; and a minimal medium with supplement-yeast nitrogen base with casamino acid (YBC), a nitrogen source, with galactose. The third condition was using different types of reactors or fermenters: a small reactor (shake flask) and a larger automated bioreactor (BioFlo 3000 fermenter). The purpose of this method is to determine the quantity of the protein produced by using different environments of production. Different tools to determine the presence and activity of Cel7B enzyme were used. For the presence of enzyme, sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) was used. Secondly, to detect enzyme activity, the carboxymethyl cellulose- 3,5-dinitrosalicylic acid (CMC- DNS) assay was employed. SDS-PAGE showed that the enzyme band was at 67 kDa, which is larger than native Cel7B (52 kDa.), likely due to over glycolylation during post-translational processing in K. lactis. For the different types of media used in our fermentation, recombinant Cel7B was produced from yeast extract peptone galactose (YPGal), and yeast nitrogen base with casamino acid (YBC), but was not produced and no activity was detected from yeast nitrogen base (YNB). This experiment concluded that the Cel7B production requires the amino acid resources as part of fermentation medium. In experiments where recombinant Cel7B net activity was measured at 1% galactose initial concentration in YPGal and YBC media, higher enzyme activity was detected for the complex medium YPGal. Higher activity of recombinant Cel7B was detected for flask culture in 2% galactose compared to 1% galactose for YBC medium. Two bioreactor experiments were conducted under these culture conditions at 30°C, pH 7.0, dissolved oxygen of 50% of saturation, and 250 rpm agitation (variable depending on DO control) K. lactis-Cel7B yeast growth curves were quite reproducible with maximum optical density (O.D) at 600 nm of between 7 and 8 (when factoring dilution of 10:1). Galactose was consumed rapidly during the first 15 hours of bioreactor culture and recombinant Cel7B started to appear in the culture at 10-15 hours and increased thereafter up to a maximum of between 0.9 and 1.6 mg/mL/hr in these experiments. These bioreactor enzyme activity results are much higher than comparable experiments conducted with flask-scale culture (0.5 mg/mL/hr). In order to achieve the highest recombinant Cel7B activity from batch culture of K. lactis-Cel7B, based on this research it is best to use a complex medium, 2% initial galactose concentration, and an automated bioreactor where good control of temperature, pH, and dissolved oxygen can be achieved.
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2007
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2008
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2008
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2008
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2008
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2008
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2016
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Foram avaliados os efeitos dos extratos clorofórmico de folhas de T. minuta e hexânico de folhas de V. polyanthes, na concentração de 1% em BDA, incorporados ao meio antes e após a autoclavagem sobre o crescimento micelial de C. gloesporioides, B. cinera, e Trichoderma sp., inoculados sob condições ambientais em temperatura de aproximadamente 26 .C. O extrato de V. polyanthes, incorporado antes e após a autoclavagem inibiu o crescimento micelial de C. gloesporioides em 36,3 e 54,3% e de B. cinerea em 23,3 e 38,5%, respectivamente. O extrato de T. minuta inibiu em 38,0 e 48,0% o crescimento micelial de C. gloesporioides e 18,3 e 14,7% o de B. cinerea, respectivamente. Os extratos na concentração estudada não inibiram o crescimento micelial de Trichoderma sp.
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Biomasa of agricultural residues are potensial as ruminant feeds. However due it is low palatability, digestibility and nutritive value limited their use. In order to improve their use, treatment need to be applied. Biological treatment by using microba seems to be an alternative because of their capability with no pollution problems. The first experiment aims to select the microorganism which have a potensial to degrade the crude fiber, based the production of reduction sugar. The second experiment aims to improve the protein and amino acid on rice straw, cassava, waste, and rice husk, by inoculated the starter of Candida utilis and or Sacharomyces cerevise. The second experiment has been conducted on Animal Nutrition and Feed Laboratory, Faculty of Animal Husbandry UNSOED for eight month Fermentation trial has been done in semi solid media, by the method of Kjic (1964), in Batch System, Variables measure were: (1) reduction sugar, (2) cellulose, (3) protein, (4) amino acids, (5) cellulase activity, (6) essensial mineral and (7) energy. Based on the all variables measured that were conclused that the quality of rice straw can be improved by mixed culture of T, viride – S. cerevise, the rice husk by A. niger – C. utilis, T. viride – C. utilis and A. niger – S cerevise while for cassava waste by A. niger – S. cerevise and A. niger – C. utilis  (Animal Production 1(1) : 10-16 (1999). Key Words: Waste Product, Energy, Microorganism
