17 research outputs found
Characterization of an acidophilic α-amylase from Aspergillus niger RBP7 and study of catalytic potential in response to nutritionally important heterogeneous compound
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A highly stable raw starch digesting α-amylase from Nile tilapia (Oreochromis niloticus) viscera
No full textEffect of weed species on drought tolerant rice genotypes at Sundarbazar, Lamjung, Nepal
No full textStarches from different sources hydrolysis using a new thermo-tolerant amylase complex produced by Bacillus subtilis T41a: Characterization and efficiency evaluation
No full textThermal characterization of partially hydrolyzed cassava (Manihot esculenta) starch granules
No full textCassava starch, partially hydrolyzed by fungal ĂĄ-amylase, was characterized using thermal analysis, light microscopy and X-ray diffraction. Thermal degradation was initiated at lower degradation temperatures after enzymatic treatment and the DSC (Differential scanning calorimetry) analysis showed almost similar range of gelatinization temperature, but the enthalpies of gelatinization were quite increased for the partially hydrolyzed starch granules. The results suggested that the partial degradation of the starch granules was concentrated in the amorphous regions.<br>Amilases fĂșngicas sĂŁo comumente empregadas a amidos com o intuito de otimizar o rendimento de leveduras, modificar a textura de produtos panificados e prolongar a vida de prateleira do produto final. A hidrĂłlise parcial enzimĂĄtica pode auxiliar no entendimento da estrutura do amido ganular. Amido de mandioca parcialmente hidrolisado por ĂĄ-amilase fĂșngica foi investigado utilizando-se tĂ©cnicas termoanalĂticas, microscopia Ăłtica e difratometria por raios X. A degradação tĂ©rmica iniciou-se a temperaturas menores apĂłs o tratamento enzimĂĄtico e a anĂĄlise por DSC mostrou uma prĂłxima faixa de temperatura de gelatinização, porĂ©m, a entalpia necessĂĄria para o evento foi maior para os grĂąnulos parcialmente hidrolisados. Os resultados sugerem que a degradação parcial do amido granular foi concentrada em regiĂ”es amorfas
Formation of functional nanobiocatalysts with a novel and encouraging immobilization approach and their versatile bioanalytical applications
No full textDual production of amylase and ÎŽ-endotoxin by Bacillus thuringiensis subsp. kurstaki during biphasic fermentation
No full textOptimization of the fermentation conditions and partial characterization for acido-thermophilic α-amylase from Aspergillus niger NCIM 548
No full textProduction of α-amylase from Streptomyces sp. SLBA-08 strain using agro-industrial by-products
No full textApproximately 1.5 trillion tons are the estimated yearly biomass production, making it an essentially unlimited source of raw material for environmentally friendly and biocompatible products transformed by microorganism, specially fungi and actinomycetes. Several lignocellulosic residues, such as sisal waste and sugarcane bagasse contain starch in their structures which could become important sources for the production of amylases. This study evaluated the production of amylolytic enzymes using Streptomyces sp. SLBA-08 strain, isolated from a semi-arid soil, according to their ability to grow on soluble starch as the sole carbon source. The effect of the carbon source (sisal waste and sugarcane bagasse) on α-amylase production was studied using submerged cultivations at 30 ÂșC. The highest level of α-amylase activity corresponded to 10.1 U. mL-1 and was obtained using sisal waste (2.7%) and urea (0.8%) in submerged fermentation after 3 days of cultivation. The partial characterization showed the best α-amylase activity at 50ÂșC and pH 7.0. These results are of great importance for the use of sisal waste as a substrate for biotechnological proposes
