College of Food Science and Engineering, Ocean University of China, Qingdao 266404, PR China.
College of Food Science and Engineering, Ocean University of China, Qingdao 266404, PR China.
Int J Biol Macromol. 2024 Nov;280(Pt 2):135715. doi: 10.1016/j.ijbiomac.2024.135715. Epub 2024 Sep 16.
Sulfated fucan has attracted increasing research interest due to its various biological activities. Endo-1,3-fucanases are favorable tools for structure investigation and structure-activity relationships establishment of sulfated fucan. However, the three-dimensional structure of enzymes from the GH174 family has not been disclosed, which hinders the understanding of the action mechanism. This study reports the first crystal structure of endo-1,3-fucanase from GH174 family (Fun174A) at a resolution of 1.60 Å. Notably, Fun174A exhibited an unusual distorted β-sandwich fold, which is distinct from other known glycoside hydrolase folds. The conserved amino acid residues D119 and H154 were proposed as the catalytic residues in the family. Molecular docking suggested that Fun174A primarily recognized sulfated fucan through a series of polar amino acid residues around the substrate binding pocket. Furthermore, structural bioinformatics analysis suggested that the structural analogs of Fun174A may be extensively implicated in the bacterial metabolism of polysaccharides, which provided opportunities for the discovery of novel glycoside hydrolases. This study offers new insights into the structural diversity of glycoside hydrolases and will contribute to the establishment of a novel clan of glycoside hydrolases.
硫酸化岩藻聚糖因其多种生物活性而引起了越来越多的研究兴趣。内切-1,3-岩藻聚糖酶是研究硫酸化岩藻聚糖结构和构效关系的有利工具。然而,GH174 家族中酶的三维结构尚未被揭示,这阻碍了对其作用机制的理解。本研究报道了 GH174 家族内切-1,3-岩藻聚糖酶(Fun174A)的首个晶体结构,分辨率为 1.60 Å。值得注意的是,Fun174A 表现出一种异常的扭曲的β-折叠,与其他已知的糖苷水解酶折叠不同。保守的氨基酸残基 D119 和 H154 被提议为该家族的催化残基。分子对接表明,Fun174A 主要通过底物结合口袋周围的一系列极性氨基酸残基来识别硫酸化岩藻聚糖。此外,结构生物信息学分析表明,Fun174A 的结构类似物可能广泛参与细菌多糖的代谢,这为发现新型糖苷水解酶提供了机会。本研究为糖苷水解酶的结构多样性提供了新的见解,并将有助于建立一个新的糖苷水解酶家族。
