RESUMO
The production of α-galactosidase from the wild fungal strain Aspergillus foetidus MTCC 6322 using solid state fermentation (SSF), its characterization, and its efficacy in the hydrolysis of soymilk using response surface methodology were studied. The optimum conditions for production of α-galactosidase by SSF were: wheat bran (10 g), moisture content (64%), inoculum volume (1.0 mL; 6 × 107 spores/mL) with a yield of 4.1 × 103 units per gram dry substrate (U/gds) at 96 h. The enzyme showed optimum activity at pH 6.0, temperature 40°C, pH stability between 5.0-8.0, and temperature stability between 30-40°C. The enzyme was stable in the presence of trypsin, lipase, and collagenase and it showed susceptibility of the substrates such as raffinose, melibiose, guar gum and soymilk to hydrolysis in varying degrees. The optimized conditions for soymilk hydrolysis were: soymilk (10 mL) from defatted soybean meal (1.5%), α-galactosidase (0.15 UmL-1) at 30°C, pH 6.0 and duration of 1 h.
RESUMO
Proteases ácidas pertencem a um importante grupo de enzimas industriais produzidas por fungos filamentosos, com aplicações na indústria de alimentos, de couro, farmacêutica e de cosméticos. O objetivo principal deste trabalho foi avaliar a produção de proteases ácidas extracelulares de fungos filamentosos isolados do solo do cerrado do centro-oeste brasileiro. Inicialmente, foi realizada uma triagem para avaliar a capacidade de 17 linhagens de fungos quanto à produção de protease em meio de cultura contendo Agar-leite. O fungo Aspergillus foetidus foi selecionado como melhor produtor de protease ácida extracelular. Visando à otimização da produção de proteases pelo fungo selecionado, avaliou-se a influência de diversos fatores no cultivo (pH, temperatura, agitação e diferentes fontes de nitrogênio e carbono). Após essa etapa, um planejamento experimental estatístico foi realizado com as variáveis independentes temperatura, pH inicial do meio e fonte de carbono e nitrogênio. A produção máxima de protease foi encontrada (63,7 U/mL) nas condições: pH inicial do meio igual a 7,0 a 28 ºC, 150 rpm em peptona 2% (p/v). Os estudos em biorreator demonstraram produção de protease nas condições de agitação e aeração iguais à 300 rpm e 1,0 vvm, após 120 h de cultivo. Os ensaios com diferentes temperaturas para a estimativa dos parâmetros termodinâmicos demonstraram que a protease ácida produzida pelo fungo é altamente estável apresentando máxima atividade em pH 5,0 e temperatura ótima igual a 55ºC. E, finalmente, para a purificação da enzima foi realizada cromatografia de gel-filtração. A enzima apresentou massa molecular de 50,6 kDa, e a análise do zimograma confirmou a atividade proteolítica. Além disso, a protease purificada foi inibida pelo composto pepstatina, indicando uma característica de protease ácida. Esses resultados obtidos demonstram um fungo filamentoso produtor de uma nova protease ácida com potencial aplicação para indústria farmacêutica e de cosméticos
The acid proteases belong to the most important group of industrial enzymes produced by filamentous fungi, with applications in the food, leather, pharmaceutical and cosmetics industries. This study aimed the evaluation of extracellular acid proteases production from filamentous fungi isolated from different samples of the midwestern Brazil cerrado. Initially, a screening was performed to assess the ability of the 17 strains of yeast for production of protease-agar medium containing milk culture. The Aspergillus foetidus was selected as the best producer. Aimed at optimizing the production of proteases by the selected fungus, first evaluated the influence of various factors on the cultivation (pH, temperatura, agitation and different sources of nitrogen and carbon). After this step, a statistical experimental design was carried out with the independent variables temperatura, initial pH of the medium and source of carbon and nitrogen. The best conditions for protease production were (63.7 U / mL): initial pH values greater than 7.0, at 28 °C, 150 rpm peptone 2% (w/v). Aiming future production of this protease in industrial scale, studies have shown better in bioreactor protease production under the conditions of agitation and aeration equal to 300 rpm and 1.0 vvm, after 120 h of cultive. The tests at different temperaturas to estimate the thermodynamic parameters showed that the acid protease produced by the fungus is highly stable with maximum activity at pH 5.0 and optimum temperatura of 55 °C. And finally, for the purification of the enzyme were performed gel-filtration chromatography. The enzyme had a molecular mass of 50.6 kDa, and the analysis of the zymogram showed a proteolytic band. Furthermore, the purified protease was inhibited by pepstatin compound, indicating a feature of acid protease. These results demonstrate a new filamentous fungus producing acid protease with potential application to pharmaceuticals and cosmetics