Pessoni R A, Figueiredo-Ribeiro R C, Braga M R
Seção de Fisiologia e Bioquímica de Plantas, Instituto de Botânica de São Paulo, Brazil.
J Appl Microbiol. 1999 Jul;87(1):141-7. doi: 10.1046/j.1365-2672.1999.00805.x.
Extracellular inulinases from Penicillium janczewskii were obtained from the filtrate of 12 day-old cultures supplemented with inulin from Vernonia herbacea. Crude filtrates and partially-purified enzyme preparations (peaks I and II) were active on inulin, sucrose and raffinose. The apparent M(r) of the enzymes from peaks I and II were 48 and 66 kDa, respectively. The apparent K(m) (mmol l-1) values of peak I were 0.43 for inulin and 18.7 for sucrose; for peak II they were 0.87 and 18.5 for inulin and sucrose, respectively. Their temperature and pH optima were 55 degrees C and 5.0, respectively. Both peaks catalysed the hydrolysis of beta-(2,1) fructans more rapidly than beta-(2,6) fructans. Free fructose was the predominant product released from inulin, indicating that these enzymes display exo-inulinase activity. In view of these characteristics, the yield and the high specific activity towards beta-(2,1) fructans, inulinases from P. janczewskii can be utilized for the preparation of fructose syrup from inulin.
来自詹氏青霉的胞外菊粉酶是从添加了来自草药斑鸠菊菊粉的12日龄培养物滤液中获得的。粗滤液和部分纯化的酶制剂(峰I和峰II)对菊粉、蔗糖和棉子糖具有活性。峰I和峰II的酶的表观分子量分别为48 kDa和66 kDa。峰I对菊粉的表观Km(mmol l-1)值为0.43,对蔗糖为18.7;峰II对菊粉和蔗糖的表观Km值分别为0.87和18.5。它们的最适温度和pH分别为55℃和5.0。两个峰催化β-(2,1)果聚糖的水解比β-(2,6)果聚糖更快。游离果糖是从菊粉释放的主要产物,表明这些酶具有外切菊粉酶活性。鉴于这些特性、产量以及对β-(2,1)果聚糖的高比活性,詹氏青霉的菊粉酶可用于从菊粉制备果糖糖浆。