来自聚农氏菌属的海藻糖酶：特性鉴定及通过定向进化提高催化效率

A trehalase from Zunongwangia sp.: characterization and improving catalytic efficiency by directed evolution.

作者信息

Cheng Qipeng, Gao Haofeng, Hu Nan

机构信息

College of Biotechnology and Pharmaceutical Engineering, Nanjing Tech University, Nanjing, 211800, P. R. China.

State Key Laboratory of Agricultural Microbiology, College of Life Science and Technology, Huazhong Agricultural University, Wuhan, 430070, P. R. China.

出版信息

BMC Biotechnol. 2016 Jan 29;16:9. doi: 10.1186/s12896-016-0239-z.

DOI:10.1186/s12896-016-0239-z

PMID:26822136

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4731906/

Abstract

BACKGROUND

Trehalases have potential applications in several fields, including food additives, insecticide development, and transgenic plant. In the present study, we focused on a trehalase from the marine bacterium Zunongwangia sp., which hydrolyzes trehalose to glucose.

RESULTS

A novel gene, treZ (1590 bp) encoding an α, α-trehalase of 529 amino acids was cloned from Zunongwangia sp., and TreZ was found to have an optimal activity at 50 °C and pH 6. The activity of TreZ was increased by the presence of NaCl, showing the highest activity (136 %) at 1 M NaCl. A variant C4 with improved catalytic activity was obtained by error-prone PCR and followed by a 96-well plate high-throughput screening. The variant C4 with two altered sites (Y227H, and R442G) displayed a 3.3 fold increase in catalytic efficiency (k cat/K m, 1143.40 mmol(-1) s(-1)) compared with the wild type enzyme (265.91 mmol(-1) s(-1)). In order to explore the contribution of the mutations found in variant C4 to the increased catalytic activity, two mutants Y227H and R442G were constructed by site-directed mutagenesis. The results showed that the catalytic efficiencies of Y227H and R442G were 416.78 mmol(-1) s(-1) and 740.97 mmol(-1) s(-1), respectively, indicating that both mutations contributed to the increased catalytic efficiency of variant C4. The structure modeling and substrate docking revealed that the substitution Y227H enlarged the shape of the binding pocket, to improve the binding of the substrate and the release of the products; while the substitution R442G reduced the size of the side chain and decreased the steric hindrance, which contributed to channel the substrate into the active cavity easier and promote the release of the product.

CONCLUSION

In this study, a novel trehalase was cloned, purified, characterized, and engineered. A variant C4 with dramatically improved catalytic activity was obtained by directed evolution, and the mutation sites Y227H and R442G were found to play a significant role in the catalytic efficiency. The overall results provide useful information about the structure and function of trehalase.

摘要

背景

海藻糖酶在多个领域具有潜在应用，包括食品添加剂、杀虫剂开发和转基因植物。在本研究中，我们聚焦于一种来自海洋细菌聚农氏菌属（Zunongwangia sp.）的海藻糖酶，它能将海藻糖水解为葡萄糖。

结果

从聚农氏菌属克隆出一个新基因treZ（1590 bp），其编码一个含529个氨基酸的α,α-海藻糖酶，发现TreZ在50°C和pH 6时具有最佳活性。NaCl的存在会提高TreZ的活性，在1 M NaCl时活性最高（136%）。通过易错PCR并随后进行96孔板高通量筛选，获得了具有改进催化活性的变体C4。与野生型酶（265.91 mmol⁻¹ s⁻¹）相比，具有两个位点改变（Y227H和R442G）的变体C4的催化效率（k cat/K m，1143.40 mmol⁻¹ s⁻¹）提高了3.3倍。为了探究变体C4中发现的突变对催化活性增加的贡献，通过定点诱变构建了两个突变体Y227H和R442G。结果表明，Y227H和R442G的催化效率分别为416.78 mmol⁻¹ s⁻¹和740.97 mmol⁻¹ s⁻¹，表明这两个突变都有助于提高变体C4的催化效率。结构建模和底物对接显示，Y227H取代扩大了结合口袋的形状，以改善底物的结合和产物的释放；而R442G取代减小了侧链大小并降低了空间位阻，这有助于使底物更容易进入活性腔并促进产物的释放。

结论

在本研究中，克隆、纯化、表征并改造了一种新型海藻糖酶。通过定向进化获得了催化活性显著提高的变体C4，发现突变位点Y227H和R442G在催化效率中起重要作用。总体结果为海藻糖酶的结构和功能提供了有用信息。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b08e/4731906/a1af2d925450/12896_2016_239_Fig1_HTML.jpg

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来自聚农氏菌属的海藻糖酶：特性鉴定及通过定向进化提高催化效率

A trehalase from Zunongwangia sp.: characterization and improving catalytic efficiency by directed evolution.

作者信息

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出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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