Improved Alkyl Glycoside Synthesis by trans‐Glycosylation through Tailored Microenvironments of Immobilized β‐Glucosidase

Hoffmann Christian; Grey Carl; Pinelo Manuel; Woodley John M.; Daugaard Anders E.; Adlercreutz Patrick

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Improved Alkyl Glycoside Synthesis by trans‐Glycosylation through Tailored Microenvironments of Immobilized β‐Glucosidase

机译：通过固定的β-葡糖苷酶的定制微环境改善转铁糖基化的烷基糖苷合成

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Abstract We present how the microenvironment can directly improve biocatalytic selectivity of immobilized β‐glucosidase. β‐Glucosidase from Thermotoga neapolitana was immobilized on a variety of functionalized off‐stoichiometric thiol‐ene (OSTE) particles, where highest activities were observed for thiol and imidazole functional particles. Compared to the soluble enzyme, the selectivity (r s /r h ) between trans‐glycosylation of p‐nitrophenyl β‐D‐glucopyranoside (pNPG) with 1‐propanol over hydrolysis was increased by a factor of 2–3 using particles containing imidazole (r s /r h of 6.7) and carboxylic acid moieties (r s /r h of 9.2), respectively. These results demonstrate clearly that enzyme selectivity depends directly on the local environment of the enzyme with the support.

机译：摘要我们介绍了微环境如何直接改善固定化β-葡糖苷酶的生物催化选择性。来自Thermotoga Neapolitana的β-葡萄糖蛋白酶在各种官能化的离化学计量硫醇 - 烯（OSTE）颗粒上固定，其中对于硫醇和咪唑官能颗粒观察到最高的活性。与可溶性酶相比，使用含咪唑的颗粒（Rs / RH为6.7）和羧酸部分（9.2的RS / RH）。这些结果显然表明，酶选择性直接取决于酶的局部环境与载体。

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来源
《ChemPlusChem》 |2020年第1期|共5页
作者
Hoffmann Christian; Grey Carl; Pinelo Manuel; Woodley John M.; Daugaard Anders E.; Adlercreutz Patrick;
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作者单位

Department of Chemical and Biochemical EngineeringTechnical University of DenmarkS?ltofts Plads;

Department of Chemistry Division of BiotechnologyLund University P.O. Box 124221 00 Lund Sweden;

Department of Chemical and Biochemical EngineeringTechnical University of DenmarkS?ltofts Plads;

Department of Chemical and Biochemical EngineeringTechnical University of DenmarkS?ltofts Plads;

Department of Chemical and Biochemical EngineeringTechnical University of DenmarkS?ltofts Plads;

Department of Chemistry Division of BiotechnologyLund University P.O. Box 124221 00 Lund Sweden;

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原文格式 PDF
正文语种 eng
中图分类化学;
关键词
alkyl glycosides; enzyme immobilization; hydrolases; surface functionalization; trans-glycosylation;

机译：烷基甘油酯;酶固定化;水解酶;表面官能化;转铁糖基化;

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专利

1. Improved Alkyl Glycoside Synthesis by trans‐Glycosylation through Tailored Microenvironments of Immobilized β‐Glucosidase [J] . Hoffmann Christian, Grey Carl, Pinelo Manuel, ChemPlusChem . 2020,第1期

机译：通过固定的β-葡糖苷酶的定制微环境改善转铁糖基化的烷基糖苷合成
2. Zeolite-catalyzed Helferich-type glycosylation of long-chain alcohols. Synthesis of acetylated alkyl 1,2-trans glycopyranosides and alkyl 1,2-cis C2-hydroxy-glycopyranosides [J] . Aich U, Loganathan D Carbohydrate research . 2007,第5期

机译：沸石催化的长链醇的Helferich型糖基化。乙酰化烷基1,2-反式吡喃葡萄糖苷和烷基1,2-顺式C2-羟基-吡喃葡萄糖苷的合成
3. Zeolite-catalyzed Helferich-type glycosylation of long-chain alcohols. Synthesis of acetylated alkyl 1,2-trans glycopyranosides and alkyl 1,2-cis C2-hydroxy-glycopyranosides [J] . Aich U, Loganathan D Carbohydrate research . 2007,第5期

机译：沸石催化的长链醇的Helferich型糖基化。乙酰化烷基1,2-反式吡喃葡萄糖苷和烷基1,2-顺式C2-羟基-吡喃葡萄糖苷的合成
4. APPLICATION OF BORONIC-ACID-CATALYZED GLYCOSYLATION TO LATE-STAGE MODIFICATION OF NATURAL GLYCOSIDES AND OLIGOSACCHARIDE SYNTHESIS [C] . Masamichi Tanaka, Akira Nakagawa, Nobuya Nishi International Carbohydrate Symposium . 2018

机译：硼酸酸催化糖基化在天然糖苷和寡糖合成的后期改性中的应用
5. I. Sulfonium-mediated oxidative glycosylation of glycal donors for the synthesis of C(2)-hydroxy-beta-glycosides. II. Hypervalent iodine (III)-mediated oxidative glycosylation of glycal donors for the synthesis of C(2)-acyloxy-beta-glycosides. III. Efforts toward the synthesis of immunologic adjuvant QS-21A(api). [D] . Kim, Yong-Jae. 2003

机译：I.硫介导的葡萄糖供体的氧化糖基化反应，用于合成C（2）-羟基-β-糖苷。二。高价碘（III）介导的糖供体的氧化糖基化反应，用于合成C（2）-酰氧基-β-糖苷。三，致力于合成免疫佐剂QS-21A（api）。
6. Kinetic analysis of the interaction of alkyl glycosides with two human beta-glucosidases. [O] . V Gopalan, L B Daniels, R H Glew, 1989

机译：烷基糖苷与两个人类β-葡萄糖苷酶相互作用的动力学分析。
7. Improved Alkyl Glycoside Synthesis by trans‐Glycosylation through Tailored Microenvironments of Immobilized β‐Glucosidase [O] . Christian Hoffmann, Carl Grey, Manuel Pinelo, 2020

机译：通过固定的β-葡糖苷酶的定制微环境改善转铁糖基化的烷基糖苷合成
8. Dinitrogen Difluoride Chemistry. Improved Synthesis of cis- and trans- N2F2, Synthesis and Characterization of N2F+Sn2F9 High-Level Electronic Structure Calculations of cis-N2F2, trans-N2F2, F2N=N, and N2F+, and Mechanism of the trans-cis Isomerization of N2F2 (Preprint) [R] . Christe, K. O., Haiges, R., Wilson, W. W., 2010

机译：二氟化二氮化学。改进的顺式 - 和反式 - N2F2的合成，N2F + sn2F9的合成和表征高级电子结构计算顺式-N2F2，反式N2F2，F2N = N和N2F +，以及N2F2的反式顺式异构化机理（预印本）

Improved Alkyl Glycoside Synthesis by trans‐Glycosylation through Tailored Microenvironments of Immobilized β‐Glucosidase

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