由折叠子触发的寡聚化：一种提高地衣酶和木聚糖酶催化效率的简单方法。

Oligomerization triggered by foldon: a simple method to enhance the catalytic efficiency of lichenase and xylanase.

作者信息

Wang Xinzhe, Ge Huihua, Zhang Dandan, Wu Shuyu, Zhang Guangya

机构信息

Fujian Provincial Key Laboratory of Biochemical Technology, Huaqiao University, Xiamen, Fujian, 361021, China.

出版信息

BMC Biotechnol. 2017 Jul 3;17(1):57. doi: 10.1186/s12896-017-0380-3.

DOI:10.1186/s12896-017-0380-3

PMID:28673305

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5496177/

Abstract

BACKGROUND

Effective and simple methods that lead to higher enzymatic efficiencies are highly sough. Here we proposed a foldon-triggered trimerization of the target enzymes with significantly improved catalytic performances by fusing a foldon domain at the C-terminus of the enzymes via elastin-like polypeptides (ELPs). The foldon domain comprises 27 residues and can forms trimers with high stability.

RESULTS

Lichenase and xylanase can hydrolyze lichenan and xylan to produce value added products and biofuels, and they have great potentials as biotechnological tools in various industrial applications. We took them as the examples and compared the kinetic parameters of the engineered trimeric enzymes to those of the monomeric and wild type ones. When compared with the monomeric ones, the catalytic efficiency (k /K ) of the trimeric lichenase and xylanase increased 4.2- and 3.9- fold. The catalytic constant (k ) of the trimeric lichenase and xylanase increased 1.8- fold and 5.0- fold than their corresponding wild-type counterparts. Also, the specific activities of trimeric lichenase and xylanase increased by 149% and 94% than those of the monomeric ones. Besides, the recovery of the lichenase and xylanase activities increased by 12.4% and 6.1% during the purification process using ELPs as the non-chromatographic tag. The possible reason is the foldon domain can reduce the transition temperature of the ELPs.

CONCLUSION

The trimeric lichenase and xylanase induced by foldon have advantages in the catalytic performances. Besides, they were easier to purify with increased purification fold and decreased the loss of activities compared to their corresponding monomeric ones. Trimerizing of the target enzymes triggered by the foldon domain could improve their activities and facilitate the purification, which represents a simple and effective enzyme-engineering tool. It should have exciting potentials both in industrial and laboratory scales.

摘要

背景

人们一直在高度寻求能实现更高酶效率的有效且简单的方法。在此，我们提出了一种通过弹性蛋白样多肽（ELP）在酶的C末端融合一个折叠子结构域来引发靶酶三聚化的方法，从而显著提高其催化性能。该折叠子结构域由27个残基组成，能够形成具有高稳定性的三聚体。

结果

地衣酶和木聚糖酶可水解地衣多糖和木聚糖以生产增值产品和生物燃料，并且它们作为生物技术工具在各种工业应用中具有巨大潜力。我们以它们为例，比较了工程化三聚体酶与单体酶和野生型酶的动力学参数。与单体酶相比，三聚体地衣酶和木聚糖酶的催化效率（k /K ）分别提高了4.2倍和3.9倍。三聚体地衣酶和木聚糖酶的催化常数（k ）分别比其相应的野生型酶提高了1.8倍和5.0倍。此外，三聚体地衣酶和木聚糖酶的比活性分别比单体酶提高了149%和94%。此外，在使用ELP作为非色谱标签的纯化过程中，地衣酶和木聚糖酶活性的回收率分别提高了12.4%和6.1%。可能的原因是折叠子结构域可以降低ELP的转变温度。

结论

由折叠子诱导的三聚体地衣酶和木聚糖酶在催化性能方面具有优势。此外，与相应的单体酶相比，它们更易于纯化，纯化倍数增加且活性损失减少。由折叠子结构域引发的靶酶三聚化可以提高其活性并便于纯化，这代表了一种简单有效的酶工程工具。它在工业和实验室规模上都应具有令人兴奋的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8502/5496177/15b61f4511c9/12896_2017_380_Fig1_HTML.jpg

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由折叠子触发的寡聚化：一种提高地衣酶和木聚糖酶催化效率的简单方法。

Oligomerization triggered by foldon: a simple method to enhance the catalytic efficiency of lichenase and xylanase.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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