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Heat-resistant gurukoshidaze, the vector and the transformant null which include the gurukoshidaze gene and the said

机译：包括古鲁吉达兹基因的耐热性古鲁吉士达兹，其载体和转化子无效。

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摘要

PURPOSE: To obtain the subject new enzyme having lower ability to decompose cellobiose than that to cellooligosaccharides, capable of producting cellobiose and glucose from cellooligosaccharides, by improving its heat resistance through recombination of a part of an enzyme gene derived from Cellvibrio microbes. ;CONSTITUTION: This new heat-resistent β-glucosidase has an amino acid sequence containing an amino acid sequance of the formula, having the following characteristics: acting on cellulose degradation products to form glucose and cellobiose; having lower ability to decompose cellobiose then that to other cellooligosaccharides such as cellotriose, cellotetraose and cellopentaose; optimal pH: 6.0, stable at pH4-9; optimal temperature: 40-45°C, stable up to 35°C, and retaining 60% activity at 45°C. This enzyme is obtained by recombination of a part of a β-glucosidase gene derived from Cellvibrio gilvus with a part of a β-glucosidase gene derived from Agrobacterium tumefaciens to impart a higher heat resistance followed by binding the resultant gene to a vector and then manifesting it in a host.;COPYRIGHT: (C)1996,JPO

机译：目的：获得本主题的新酶，该酶具有比纤维寡糖分解纤维二糖的能力低的能力，该酶能够通过重组一部分源自纤维弧菌的酶基因的耐热性来从纤维寡糖产生纤维二糖和葡萄糖。 ;组成：这种新的耐热性β-葡萄糖苷酶的氨基酸序列包含下式的氨基酸序列，具有以下特征：作用于纤维素降解产物以形成葡萄糖和纤维二糖;纤维二糖的分解能力比纤维三糖，纤维四糖和纤维戊糖低。最佳pH：6.0，在pH4-9稳定;最佳温度：40-45°C，最高可稳定在35°C，并在45°C时保持60％的活性。该酶是通过重组源自吉氏弧菌的一部分β-葡萄糖苷酶基因与来源于根癌土壤杆菌的一部分β-葡萄糖苷酶基因重组以赋予较高的耐热性，然后将所得基因与载体结合，然后表现出主持人;版权：（C）1996，日本特许厅

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公开/公告号JP2702677B2

专利类型
公开/公告日1998-01-21

原文格式PDF
申请/专利权人農林水産省食品総合研究所長;
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申请/专利号JP19940299049
发明设计人徳安健;アジャイシン;柏木豊;林清;谷口肇;
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申请日1994-11-09
分类号C12N9/44;C12N1/21;C12N15/09;
国家 JP
入库时间 2022-08-22 03:00:13

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