基于结构和序列的蛋白质聚类技术发现耐热塔格糖 4-差向异构酶。

Discovery of a Thermostable Tagatose 4-Epimerase Powered by Structure- and Sequence-Based Protein Clustering.

机构信息

State Key Laboratory of Food Science and Resources, Jiangnan University, Wuxi, Jiangsu 214122, China.

School of Food Science and Technology, Jiangnan University, Wuxi, Jiangsu 214122, China.

出版信息

J Agric Food Chem. 2024 Aug 21;72(33):18585-18593. doi: 10.1021/acs.jafc.4c03793. Epub 2024 Aug 12.

DOI:10.1021/acs.jafc.4c03793

PMID:39133835

Abstract

d-Tagatose is a highly promising functional sweetener known for its various physiological functions. In this study, a novel tagatose 4-epimerase from archaeon (Thar-T4Ease), with the ability to convert d-fructose to d-tagatose, was discovered through a combination of structure similarity search and sequence-based protein clustering. The recombinant Thar-T4Ease exhibited optimal activity at pH 8.5 and 85 °C, in the presence of 1 mM Ni. Its and / values toward d-fructose were measured to be 248.5 min and 2.117 mM·min, respectively. Notably, Thar-T4Ease exhibited remarkable thermostability, with a value of 198 h at 80 °C. Moreover, it achieved a conversion ratio of 18.9% using 100 g/L d-fructose as the substrate. Finally, based on sequence and structure analysis, crucial residues for the catalytic activity of Thar-T4Ease were identified by molecular docking and site-directed mutagenesis. This research expands the repertoire of enzymes with C4-epimerization activity and opens up new possibilities for the cost-effective production of d-tagatose from d-fructose.

摘要

d-塔格糖是一种极具前景的功能性甜味剂，具有多种生理功能。本研究通过结构相似性搜索和基于序列的蛋白质聚类相结合，发现了一种来自古菌（Thar-T4Ease）的新型塔格糖 4-差向异构酶，该酶能够将 d-果糖转化为 d-塔格糖。重组 Thar-T4Ease 在 pH8.5 和 85°C、存在 1mM Ni 的条件下表现出最佳活性。其对 d-果糖的 Km 和 Vmax 值分别为 248.5 min 和 2.117 mM·min。值得注意的是，Thar-T4Ease 具有显著的热稳定性，在 80°C 下的半衰期值为 198 h。此外，以 100g/L d-果糖为底物，转化率达到 18.9%。最后，通过序列和结构分析，通过分子对接和定点突变确定了 Thar-T4Ease 催化活性的关键残基。本研究扩展了具有 C4-差向异构化活性的酶的种类，为从 d-果糖高效生产 d-塔格糖开辟了新的可能性。

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基于结构和序列的蛋白质聚类技术发现耐热塔格糖 4-差向异构酶。

Discovery of a Thermostable Tagatose 4-Epimerase Powered by Structure- and Sequence-Based Protein Clustering.

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