Sônia Couri scite author profile

The viability of converting biomass into biofuels and chemicals still requires further development towards the reduction of the enzyme production costs. Thus, there is a growing demand for the development of efficient procedures for selection of cellulase-producing microorganisms. This work correlates qualitative screening using agar plate assays with quantitative measurements of cellulase production during cultivation under solid-state fermentation (SSF). The initial screening step consisted of observation of the growth of 78 preselected strains of the genus Trichoderma on plates, using microcrystalline cellulose as carbon source. The 49 strains that were able to grow on this substrate were then subjected to a second screening step using the Congo red test. From this test it was possible to select 10 strains that presented the highest enzymatic indices (EI), with values ranging from 1.51 to 1.90. SSF cultivations using sugarcane bagasse and wheat bran as substrates were performed using selected strains. The CG 104NH strain presented the highest EGase activity (25.93 UI·g−1). The EI results obtained in the screening procedure using plates were compared with cellulase production under SSF. A correlation coefficient (R 2) of 0.977 was obtained between the Congo red test and SSF, demonstrating that the two methodologies were in good agreement.

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Cashew apple juice stabilization by microfiltration

Campos

Santos²,

Wolkoff

et al. 2002

Desalination

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Biodegradation of feather waste by extracellular keratinases and gelatinases from Bacillus spp.

Mazotto

Melo

Macrae

et al. 2010

World J Microbiol Biotechnol

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In this study, three feather degrading bacterial strains were isolated from agroindustrial residues from a Brazilian poultry farm. Three Gram-positive, spore-forming, rod-shaped bacteria and were identified as B. subtilis 1271, B. licheniformis 1269 and B. cereus 1268 using biochemical, physiologic and molecular methods. These Bacillus spp. strains grew and produced keratinases and peptidases using chicken feather as the sole source of nitrogen and carbon. B. subtilis 1271 degraded feathers completely after 7 days at room temperature and produced the highest levels of keratinase (446 U ml(-1)). Feather hydrolysis resulted in the production of serine, glycine, glutamic acid, valine and leucine as the major amino acids. Enzymography and zymography analyses demonstrated that enzymatic extracts from the Bacillus spp. effectively degraded keratin and gelatin substrates as well as, casein, hemoglobin and bovine serum albumin. Zymography showed that B. subtilis 1271 and B. licheniformis 1269 produced peptidases and keratinases in the 15-140 kDa range, and B. cereus produced a keratinase of ~200 kDa using feathers as the carbon and nitrogen source in culture medium. All peptidases and keratinases observed were inhibited by the serine specific peptidase inhibitor phenylmethylsulfonyl fluoride (PMSF). The optimum assay conditions of temperature and pH for keratinase activity were 40-50°C and pH 10.0 for all strains. For gelatinases the best temperature and pH ranges were 50-70°C and pH 7.0-11. These isolates have potential for the biodegradation of feather wastes and production of proteolytic enzymes using feather as a cheap and eco-friendly substrate.

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Finding stable cellulase and xylanase: evaluation of the synergistic effect of pH and temperature

et al. 2010

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Ethanol from lignocellulosic biomass has been recognized as one of the most promising alternatives for the production of renewable and sustainable energy. However, one of the major bottlenecks holding back its commercialization is the high costs of the enzymes needed for biomass conversion. In this work, we studied the enzymes produced from a selected strain of Aspergillus niger under solid state fermentation. The cellulase and xylanase enzymatic cocktail was characterized in terms of pH and temperature by using response surface methodology. Thermostability and kinetic parameters were also determined. The statistical analysis of pH and temperature effects on enzymatic activity showed a synergistic interaction of these two variables, thus enabling to find a pH and temperature range in which the enzymes have a higher activity. The results obtained allowed the construction of mathematical models used to predict endoglucanase, β-glucosidase and xylanase activities under different pH and temperature conditions. Optimum temperature values for all three enzymes were found to be in the range between 35°C and 60°C, and the optimum pH range was found between 4 and 5.5. The methodology employed here was very effective in estimating enzyme behavior under different process conditions.

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Keratinase Production by ThreeBacillusspp. Using Feather Meal and Whole Feather as Substrate in a Submerged Fermentation

et al. 2011

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Three Bacillus species (B. subtilis LFB-FIOCRUZ 1270, B. subtilis LFB-FIOCRUZ 1273, and B. licheniformis LFB-FIOCRUZ 1274), isolated from the poultry industry, were evaluated for keratinase production using feathers or feather meal as the sole carbon and nitrogen sources in a submerged fermentation. The three Bacillus spp. produced extracellular keratinases and peptidases after 7 days. Feather meal was the best substrate for keratinase and peptidase production in B. subtilis 1273, with 412 U/mL and 463 U/ml. The three strains were able to degrade feather meal (62–75%) and feather (40–95%) producing 3.9–4.4 mg/ml of soluble protein in feather meal medium and 1.9–3.3 mg/ml when feather medium was used. The three strains produced serine peptidases with keratinase and gelatinase activity. B. subtilis 1273 was the strain which exhibited the highest enzymatic activity.

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Selection of tannase-producing Aspergillus niger strains

Pinto¹,

Leite²,

Terzi³

et al. 2001

Braz. J. Microbiol.

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Hydrolytic enzyme production in solid-state fermentation by Aspergillus niger 3T5B8

Couri

Terzi

Pinto

et al. 2000

Process Biochemistry

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Composição em ácidos graxos do óleo da polpa de açaí extraído com enzimas e com hexano

et al. 2008

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RESUMO-A palmeira Euterpe oleracea (Mart.), conhecida como açaizeiro, é nativa da Amazônia e tem-se destacado pelo potencial dos seus produtos, em especial pela importância econômica para a fruticultura regional. A polpa de açaí contém alto teor de óleo vegetal, cerca de 53% em base seca, e é uma fonte de ácidos graxos essenciais. Neste trabalho, a composição em ácidos graxos da fração lipídica da polpa de açaí foi determinada por cromatografia gasosa de alta resolução. O óleo foi obtido pelo processo enzimático ou por extração com n-hexano. A extração enzimática, em meio aquoso, tem sido indicada como uma alternativa para a obtenção de óleos vegetais derivados de polpas de frutas. Os resultados apresentaram diferenças não significativas na composição em ácidos graxos dos óleos provenientes das diferentes técnicas de extração. Em ambos os casos, houve predominância dos ácidos graxos monoinsaturados (68% a 71%) e de ácidos graxos poliinsaturados (7,7% a 10,6%). Termos para Indexação: óleo de açaí, ácidos graxos, tecnologia enzimática. FATTY ACIDS COMPOSITION OF AÇAÍ PULP OIL OBTAINED BY ENZYMATIC TECHNOLOGY AND HEXANEABSTRACT-Açaí (Euterpe oleracea Martius) is a typical palm tree from the Amazon, growing spontaneously in states of Pará, Amazonas, Amapá and Maranhão. It has been highlighted by the potential of its products, especially because of the economic importance for the regional fruit growing. The açaí fruits are very appreciated by their pulp flavour. In the açaí pulp, there is a significant amount of lipids, around 53%, in a dry basis, turning out to be an excellent source of essential fatty acids. The main purpose of the present work was to establish the fatty acid content in the lipid fraction of açaí pulp using high resolution gaseous chromatography. The açaí oil was obtained by enzymatic technology in water has been indicated as an alternative for vegetable oils extraction from pulp of fruits. A significant difference was not observed in the composition of the fatty acids present in açaí oil obtained from either process. In both cases, the oil is high in monounsaturated fatty acids (68% to 71%) and in polyunsaturated fatty acids (7.8% to 10.6%). Index Terms: açaí oil, fatty acids, enzymatic technology. INTRODUÇÃOA região amazônica apresenta grande quantidade de plantas perenes, com particular relevância para as espécies frutíferas. Dentre essas frutas, destaca-se o açaí. O açaí, fruto do açaizeiro (Euterpe oleracea Martius), é importante para o desenvolvimento agroindustrial da região amazônica. A produção de açaí, na microrregião de Belém, ocorre em todos os meses do ano, porém concentra-se no segundo semestre, principalmente entre os meses de setembro e dezembro. Esse fruto contém lipídios, proteínas, fibras e antocianinas. Seu consumo na região Norte do Brasil se faz, em geral, combinado com outros alimentos regionais ou, ainda, na forma de sorvetes, cremes, mingaus, geléias e licores. No Sudeste, o açaí é consumido de forma distinta da praticada na região Norte, pois o objetivo dos consumidores é...

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Sônia Couri

Correlation between Agar Plate Screening and Solid-State Fermentation for the Prediction of Cellulase Production by Trichoderma Strains

Cashew apple juice stabilization by microfiltration

Biodegradation of feather waste by extracellular keratinases and gelatinases from Bacillus spp.

Finding stable cellulase and xylanase: evaluation of the synergistic effect of pH and temperature

Keratinase Production by ThreeBacillusspp. Using Feather Meal and Whole Feather as Substrate in a Submerged Fermentation

Selection of tannase-producing Aspergillus niger strains

Hydrolytic enzyme production in solid-state fermentation by Aspergillus niger 3T5B8

Composição em ácidos graxos do óleo da polpa de açaí extraído com enzimas e com hexano

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