利用多色青霉β-糖苷酶通过转糖基作用酶法合成龙胆寡糖。

Enzymatic synthesis of gentiooligosaccharides by transglycosylation with beta-glycosidases from Penicillium multicolor.

作者信息

Fujimoto Yoshinori, Hattori Takeshi, Uno Shuji, Murata Takeomi, Usui Taichi

机构信息

Department of Bioscience, Graduate School of Science and Technology, Shizuoka University, Shizuoka, Japan.

出版信息

Carbohydr Res. 2009 May 26;344(8):972-8. doi: 10.1016/j.carres.2009.03.006. Epub 2009 Mar 12.

DOI:10.1016/j.carres.2009.03.006

PMID:19362709

Abstract

A crude enzyme preparation from Penicillium multicolor efficiently produced mainly gentiotriose to gentiopentaose (d.p. 3-5) by transglycosylation using a high concentration of gentiobiose as the substrate. The resulting gentiotriose was examined in a gustatory sensation test using human volunteers, and was determined to have one-fifth of the bitterness of gentiobiose. The crude enzyme preparation was analyzed by chromatography to determine the enzyme responsible for formation of the gentiooligosaccharides. The transglycosylation was shown to take place in two stages by a combination of beta-glucosidase and beta-(1-->6)-glucanase. In the initial stage, which was the rate-limiting step in the overall process, beta-glucosidase produced mainly gentiotriose from gentiobiose. In the second step, beta-(1-->6)-glucanase acted on the resulting gentiotriose, which served as both donor and acceptor, to produce a series of gentiooligosaccharides (d.p. 4-9) by transglycosylation.

摘要

一种来自多色青霉的粗酶制剂，以高浓度的龙胆二糖为底物，通过转糖基作用高效地主要生成了龙胆三糖至龙胆五糖（聚合度3 - 5）。使用人类志愿者对所得的龙胆三糖进行了味觉测试，结果表明其苦味仅为龙胆二糖的五分之一。通过色谱法对粗酶制剂进行分析，以确定负责形成龙胆寡糖的酶。结果表明，转糖基作用分两个阶段进行，由β - 葡萄糖苷酶和β-(1→6)-葡聚糖酶共同作用。在初始阶段，这是整个过程中的限速步骤，β - 葡萄糖苷酶主要从龙胆二糖生成龙胆三糖。在第二步中，β-(1→6)-葡聚糖酶作用于生成的龙胆三糖，龙胆三糖同时作为供体和受体，通过转糖基作用产生一系列龙胆寡糖（聚合度4 - 9）。

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利用多色青霉β-糖苷酶通过转糖基作用酶法合成龙胆寡糖。

Enzymatic synthesis of gentiooligosaccharides by transglycosylation with beta-glycosidases from Penicillium multicolor.

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