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首页> 外文期刊>Archives of Biochemistry and Biophysics >Transglucosidic reactions of the Aspergillus niger Family 3 beta-glucosidase: Qualitative and quantitative analyses and evidence that the transglucosidic rate is independent of pH
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Transglucosidic reactions of the Aspergillus niger Family 3 beta-glucosidase: Qualitative and quantitative analyses and evidence that the transglucosidic rate is independent of pH

机译:黑曲霉家族3β-葡萄糖苷酶的转葡糖苷反应:定性和定量分析,并证明转葡糖苷的速率与pH无关

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The hydrolytic and transglucosidic reactions of the Aspergillus niger Family 3 P-glucosidase were characterized. Michaelis-Menten plots of the rates of aglycone formation were normal (hyperbolic) at low [substrate]. However, at high [substrate] the rates decreased at pH below similar to 5.5 but increased at pH above similar to 5.5. Each decrease or increase took the form of a second hyperbola adjoining the first. Thin layer chromatography, gas-liquid chromatography, and NMR analyses indicated that the substrates became transglucosidic acceptors when present at high concentrations. When pNPGlc and cellobiose reacted as acceptors, the C6 hydroxyl of the non-reducing substrate component reacted to form beta-(D)-glucopyranosyl-(1-6)-beta-(D)-glucopyranosyl-p-nitrophenol and beta-D-glucopyranosyl-(1-6)-beta-D-glucopyranosyl-(1-4)-beta-D-glucopyranose, respectively. The acceptor action accounted for the second adjoining hyperbolas. Rate equations were derived for the production of the aglycone and the transglucosidic intermediate, and these equations described the data very well. Hydrolytic V-max {V-max (h)}, hydrolytic K-m {K-m(h)}, transglucosidic V-max{V-max(t)}, and transgiucosidic K-m{K-m(t)} values were obtained by non-linear regression analysis using these equations V-max(h) pH profiles were bell shaped with optima between pH 4 and 4.5 but the V-max(t) values did not change substantially between pH 3 and 7. These differences in the pH profiles explain the decreasing and increasing adjoining hyperbolas since V-max (t) is lower than V-max (h) at pH less than similar to 5.5 but higher than V-max(h) at pH greater than similar to 5.5. The reason for these pH effects is that the value of the hydrolytic rate constant (k(3)) decreases while the value of the transgiucosidic rate constant (k(4)) does not change between pH 3 and 7. The study also showed that gentiobiose forms by an intermolecular reaction of the C6 hydroxyl of Glc rather than an intramolecular reaction and that an equatorial orientation of the C2 hydroxyl, the presence of a C6 primary hydroxyl and P-linkages with oligosaccharide acceptors are important for acceptor reactivity. (c) 2005 Elsevier Inc. All rights reserved.
机译:表征了黑曲霉家族3 P-葡萄糖苷酶的水解和转糖苷反应。在低[底物]下,糖苷配基形成速率的Michaelis-Menten图正常(双曲线)。然而,在高[底物]下,当pH低于约5.5时,速率降低,但当pH高于约5.5时,速率升高。每次减少或增加都采用第二个双曲线的形式,与第二个双曲线相邻。薄层色谱,气液色谱和NMR分析表明,当高浓度存在时,底物会变成转糖苷受体。当pNPGlc和纤维二糖作为受体反应时,非还原性底物组分的C6羟基反应形成β-(D)-吡喃葡萄糖基-(1-6)-β-(D)-吡喃葡萄糖基-对硝基苯酚和β-D -吡喃葡萄糖基-(1-6)-β-D-吡喃葡萄糖基-(1-4)-β-D-吡喃葡萄糖。受主动作占第二个相邻的双曲线。得出了糖苷配基和转糖苷中间体生产的速率方程,这些方程很好地描述了数据。水解V-max {V-max(h)},水解Km {Km(h)},转糖苷V-max {V-max(t)}和跨糖体Km {Km(t)}值通过非使用这些方程式进行线性回归分析V-max(h)pH曲线呈钟形,最佳pH介于4和4.5之间,但V-max(t)值在pH 3和7之间没有实质性变化。由于在小于等于5.5的pH值下V-max(t)低于V-max(h),但在大于大于5.5的pH pH下大于V-max(h),所以相邻的双曲线不断减少和增加。这些pH值影响的原因是,水解速率常数(k(3))的值减小,而跨糖苷酸速率常数(k(4))的值在pH 3和7之间不变。研究还表明,龙胆二糖是通过Glc的C6羟基的分子间反应而不是分子内反应形成的,并且C2羟基的赤道取向,C6伯羟基和带有低聚糖受体的P键的存在对于受体反应性很重要。 (c)2005 Elsevier Inc.保留所有权利。

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