Structural and functional characterization of the novel endo-α(1,4)-fucoidanase Mef1 from the marine bacterium Muricauda eckloniae.

IF 2.6 4区 生物学 Q2 BIOCHEMICAL RESEARCH METHODS Acta Crystallographica. Section D, Structural Biology Pub Date : 2023-11-01 Epub Date: 2023-10-25 DOI:10.1107/S2059798323008732
Maria Dalgaard Mikkelsen, Vy Ha Nguyen Tran, Sebastian Meier, Thuan Thi Nguyen, Jesper Holck, Hang Thi Thuy Cao, Tran Thi Thanh Van, Pham Duc Thinh, Anne S Meyer, Jens Preben Morth
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Abstract

Fucoidanases (EC 3.2.1.-) catalyze the hydrolysis of glycosidic bonds between fucose residues in fucoidans. Fucoidans are a compositionally and structurally diverse class of fucose-containing sulfated polysaccharides that are primarily found in brown seaweeds. Here, the structural characterization of a novel endo-α(1,4)-fucoidanase, Mef1, from the marine bacterium Muricauda eckloniae is presented, showing sequence similarity to members of glycoside hydrolase family 107. Using carbohydrate polyacrylamide gel electrophoresis and nuclear magnetic resonance analyses, it is shown that the fucoidanase Mef1 catalyzes the cleavage of α(1,4)-linkages between fucose residues sulfated on C2 in the structure [-3)-α-L-Fucp2S-(1,4)-α-L-Fucp2S-(1-]n in fucoidan from Fucus evanescens. Kinetic analysis of Mef1 activity by Fourier transform infrared spectroscopy revealed that the specific Mef1 fucoidanase activity (Uf) on F. evanescens fucoidan was 0.1 × 10-3 Uf µM-1. By crystal structure determination of Mef1 at 1.8 Å resolution, a single-domain organization comprising a (β/α)8-barrel domain was determined. The active site was in an extended, positively charged groove that is likely to be designed to accommodate the binding of the negatively charged, sulfated fucoidan substrate. The active site of Mef1 comprises the amino acids His270 and Asp187, providing acid/base and nucleophile groups, respectively, for the hydrolysis of glycosidic bonds in the fucoidan backbone. Electron densities were identified for two possible Ca2+ ions in the enzyme, one of which is partially exposed to the active-site groove, while the other is very tightly coordinated. A water wire was discovered leading from the exterior of the Mef1 enzyme into the active site, passing the tightly coordinated Ca2+ site.

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海洋细菌Muricauda eckloniae新型内切-α(1,4)-岩藻糖苷酶Mef1的结构和功能表征
岩藻糖苷酶(EC 3.2.1.-)催化岩藻糖苷中岩藻糖残基之间糖苷键的水解。岩藻糖胶是一类主要存在于棕色海藻中的含有岩藻糖的硫酸多糖,其组成和结构各不相同。本文介绍了一种新的内源性α(1,4)-岩藻糖苷酶Mef1的结构特征,该酶来自海洋细菌埃科木霉,与糖苷水解酶家族107的成员具有序列相似性。利用碳水化合物聚丙烯酰胺凝胶电泳和核磁共振分析,结果表明,岩藻糖胶酶Mef1催化埃文氏褐藻糖胶中结构[-3)-α-L-Fucp2S-(1,4)-α-L-Fucp2S-(1-]n中C2上硫酸盐化的岩藻糖残基之间的α(1,4 Uf µM-1.在1.8下通过晶体结构测定Mef1 Å分辨率,确定了包含(β/α)8桶结构域的单结构域组织。活性位点位于一个延伸的带正电荷的凹槽中,该凹槽可能被设计为适应带负电荷的硫酸岩藻糖胶底物的结合。Mef1的活性位点包括氨基酸His270和Asp187,分别为岩藻糖胶主链中的糖苷键的水解提供酸/碱和亲核基团。确定了酶中两种可能的Ca2+离子的电子密度,其中一种部分暴露于活性位点凹槽,而另一种则非常紧密地配位。发现一根水管线从Mef1酶的外部进入活性位点,穿过紧密配位的Ca2+位点。
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来源期刊
Acta Crystallographica. Section D, Structural Biology
Acta Crystallographica. Section D, Structural Biology BIOCHEMICAL RESEARCH METHODSBIOCHEMISTRY &-BIOCHEMISTRY & MOLECULAR BIOLOGY
CiteScore
4.50
自引率
13.60%
发文量
216
期刊介绍: Acta Crystallographica Section D welcomes the submission of articles covering any aspect of structural biology, with a particular emphasis on the structures of biological macromolecules or the methods used to determine them. Reports on new structures of biological importance may address the smallest macromolecules to the largest complex molecular machines. These structures may have been determined using any structural biology technique including crystallography, NMR, cryoEM and/or other techniques. The key criterion is that such articles must present significant new insights into biological, chemical or medical sciences. The inclusion of complementary data that support the conclusions drawn from the structural studies (such as binding studies, mass spectrometry, enzyme assays, or analysis of mutants or other modified forms of biological macromolecule) is encouraged. Methods articles may include new approaches to any aspect of biological structure determination or structure analysis but will only be accepted where they focus on new methods that are demonstrated to be of general applicability and importance to structural biology. Articles describing particularly difficult problems in structural biology are also welcomed, if the analysis would provide useful insights to others facing similar problems.
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