嗜热栖热菌Cel5A的定点诱变与纤维素结合模块工程

Site-directed mutagenesis and CBM engineering of Cel5A (Thermotoga maritima).

作者信息

Mahadevan Shobana Arumugam, Wi Seung Gon, Lee Dae-Seok, Bae Hyeun-Jong

机构信息

Department of Forest Products and Technology, BK21 Program, Chonnam National University, Kwangju, Korea.

出版信息

FEMS Microbiol Lett. 2008 Oct;287(2):205-11. doi: 10.1111/j.1574-6968.2008.01324.x. Epub 2008 Aug 22.

DOI:10.1111/j.1574-6968.2008.01324.x

PMID:18752623

Abstract

In order to make cost-effective bioethanol from dynamic lignocellulosic material, we require potentially acting and stable cellulolytic enzymes. In our investigation, the hyperthermostable endoglucanase Cel5A from Thermotoga maritima was subjected to site-directed mutagenesis and carbohydrate-binding module (CBM) engineering. For this purpose, amino acids around the active-site region were targeted. Results indicated that five single mutants showed a shift in optimal pH from 5 to 5.4. The N147E mutant displayed 10% higher activity than native Cel5A. Domain engineering was performed with fungal and bacterial CBM. In addition, CBM1 from (CBHII) Trichoderma reesei and CBM6 from Clostridium stercorarium xylanase A were fused with Cel5A. Both the CBM-engineered Cel5A showed 14-18-fold higher hydrolytic activity towards Avicel. Immuno-gold labeling assay of engineered enzymes further indicated the relativity that exists between binding ability and activity.

摘要

为了从动态木质纤维素材料中生产具有成本效益的生物乙醇，我们需要具有潜在活性且稳定的纤维素分解酶。在我们的研究中，来自嗜热栖热菌的超嗜热内切葡聚糖酶Cel5A进行了定点诱变和碳水化合物结合模块（CBM）工程改造。为此，对活性位点区域周围的氨基酸进行了靶向改造。结果表明，五个单突变体的最佳pH从5变为5.4。N147E突变体的活性比天然Cel5A高10%。利用真菌和细菌的CBM进行了结构域工程改造。此外，将里氏木霉（CBHII）的CBM1和嗜热栖热放线菌木聚糖酶A的CBM6与Cel5A融合。两种经CBM工程改造的Cel5A对微晶纤维素的水解活性均提高了14至18倍。对工程酶的免疫金标记分析进一步表明了结合能力与活性之间存在的相关性。

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嗜热栖热菌Cel5A的定点诱变与纤维素结合模块工程

Site-directed mutagenesis and CBM engineering of Cel5A (Thermotoga maritima).

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