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海洋眼子菜的阿拉伯半乳聚糖蛋白含有独特的聚糖结构,为适应盐环境的过程提供了深入了解。

Arabinogalactan-proteins of Zostera marina L. contain unique glycan structures and provide insight into adaption processes to saline environments.

机构信息

Pharmaceutical Institute, Department of Pharmaceutical Biology, Christian-Albrechts-University of Kiel, Gutenbergstr. 76, 24118, Kiel, Germany.

La Trobe Institute for Agriculture & Food, Department of Animal, Plant and Soil Sciences, La Trobe University, Melbourne, Victoria, 3086, Australia.

出版信息

Sci Rep. 2020 May 19;10(1):8232. doi: 10.1038/s41598-020-65135-5.

DOI:10.1038/s41598-020-65135-5
PMID:32427862
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7237498/
Abstract

Seagrasses evolved from monocotyledonous land plants that returned to the marine habitat. This transition was accomplished by substantial changes in cell wall composition, revealing habitat-driven adaption to the new environment. Whether arabinogalactan-proteins (AGPs), important signalling molecules of land plants, are present in seagrass cell walls is of evolutionary and plant development interest. AGPs of Zostera marina L. were isolated and structurally characterised by analytical and bioinformatics methods as well as by ELISA with different anti-AGP antibodies. Calcium-binding capacity of AGPs was studied by isothermal titration calorimetry (ITC) and microscopy. Bioinformatic searches of the Z. marina proteome identified 9 classical AGPs and a large number of chimeric AGPs. The glycan structures exhibit unique features, including a high degree of branching and an unusually high content of terminating 4-O-methyl-glucuronic acid (4-OMe GlcA) residues. Although the common backbone structure of land plant AGPs is conserved in Z. marina, the terminating residues are distinct with high amounts of uronic acids. These differences likely result from the glycan-active enzymes (glycosyltransferases and methyltransferases) and are essential for calcium-binding properties. The role of this polyanionic surface is discussed with regard to adaption to the marine environment.

摘要

海草由返回海洋生境的单子叶陆生植物进化而来。这种转变是通过细胞壁成分的实质性变化来实现的,揭示了对新环境的栖息地驱动适应。陆地植物的重要信号分子阿拉伯半乳聚糖蛋白(AGPs)是否存在于海草细胞壁中,这在进化和植物发育方面具有重要意义。采用分析和生物信息学方法以及不同抗 AGP 抗体的 ELISA,对 Zostera marina L. 的 AGPs 进行了分离和结构表征。通过等温滴定微量热法(ITC)和显微镜研究了 AGPs 的钙结合能力。对 Z. marina 蛋白质组的生物信息学搜索鉴定了 9 种经典 AGPs 和大量嵌合 AGPs。糖链结构具有独特的特征,包括高度分支和异常高含量的 4-O-甲基-葡萄糖醛酸(4-OMe GlcA)末端残基。尽管 Z. marina 中保守了陆地植物 AGPs 的常见骨干结构,但末端残基却截然不同,含有大量的糖醛酸。这些差异可能是由于糖基活性酶(糖基转移酶和甲基转移酶)的存在,对于钙结合特性是必不可少的。本文讨论了这种带多阴离子表面在适应海洋环境方面的作用。

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