一种来自sp. H204的具有两个不同裂解酶催化结构域的双功能内切海藻酸裂解酶。

A bifunctional endolytic alginate lyase with two different lyase catalytic domains from sp. H204.

作者信息

Peng Chune, Wang Qingbin, Xu Wei, Wang Xinkun, Zheng Qianqian, Liang Xiaohui, Dong Xiaodan, Li Fuchuan, Peng Lizeng

机构信息

Key Laboratory of Agro-Products Processing Technology of Shandong Province, Key Laboratory of Novel Food Resources Processing Ministry of Agriculture, Institute of Food & Nutrition Science and Technology, Shandong Academy of Agricultural Sciences, Jinan, China.

National Glycoengineering Research Center, Shandong Provincial Key Laboratory of Carbohydrate Chemistry and Glycobiology, State Key Laboratory of Microbial Technology, Shandong University, Qingdao, China.

出版信息

Front Microbiol. 2024 Dec 13;15:1509599. doi: 10.3389/fmicb.2024.1509599. eCollection 2024.

DOI:10.3389/fmicb.2024.1509599

PMID:39735187

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11671496/

Abstract

Alginate lyases can fully degrade alginate into various size-defined unsaturated oligosaccharide products by -elimination. Here, we identified the bifunctional endolytic alginate lyase Aly35 from the marine bacterium sp. Strain H204. The enzyme Aly35 is classified into the polysaccharide lyase 7 superfamily and contains two alginate lyase catalytic domains. The relationship and function of the two lyase domains are not well known. Thus, the full-length recombinant enzyme and its truncated proteins Aly35-CD1 (catalytic domain 1), Aly35-CD2 (catalytic domain 2 domain) were constructed. The three enzymes showed similar biochemical characteristics and exhibited temperature and pH stability. Further research showed that Aly35 and Aly35-CD2 can efficiently degrade alginate, polymannuronate (PM) and polyguluronate (PG) into a series of unsaturated oligosaccharides, while Aly35-CD1 exhibits greater PM-degrading activity than that of Aly35-CD2 but can not degraded PG efficiently. The results suggest that the domain (Trp-His) is critical for PG-degrading activity, the domain has (Leu-Lys) higher PM-degrading activity, both catalytic domains together confer increased alginate (including M-blocks and G blocks)-degrading activity. The enzyme Aly35 and its truncations Aly35-CD1 and Aly35-CD2 will be useful tools for structural analyses and for preparing bioactive oligosaccharides, especially Aly35-CD1 can be used to prepare G unit-rich oligosaccharides from alginate.

摘要

海藻酸裂合酶可通过β-消除反应将海藻酸完全降解为各种大小确定的不饱和寡糖产物。在此，我们从海洋细菌sp. 菌株H204中鉴定出双功能内切海藻酸裂合酶Aly35。该酶Aly35被归类于多糖裂合酶7超家族，包含两个海藻酸裂合酶催化结构域。两个裂合酶结构域之间的关系和功能尚不清楚。因此，构建了全长重组酶及其截短蛋白Aly35-CD1（催化结构域1）、Aly35-CD2（催化结构域2）。这三种酶表现出相似的生化特性，并具有温度和pH稳定性。进一步研究表明，Aly35和Aly35-CD2可有效地将海藻酸、聚甘露糖醛酸（PM）和聚古罗糖醛酸（PG）降解为一系列不饱和寡糖，而Aly35-CD1对PM的降解活性高于Aly35-CD2，但不能有效地降解PG。结果表明，（色氨酸-组氨酸）结构域对PG降解活性至关重要，（亮氨酸-赖氨酸）结构域具有更高的PM降解活性，两个催化结构域共同赋予更高的海藻酸（包括M片段和G片段）降解活性。酶Aly35及其截短体Aly35-CD1和Aly35-CD2将成为结构分析和制备生物活性寡糖的有用工具，尤其是Aly35-CD1可用于从海藻酸制备富含G单元的寡糖。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6ed1/11671496/de10800a7c83/fmicb-15-1509599-g001.jpg

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一种来自sp. H204的具有两个不同裂解酶催化结构域的双功能内切海藻酸裂解酶。

A bifunctional endolytic alginate lyase with two different lyase catalytic domains from sp. H204.

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