解开扭转蛋白A寡聚难题：聚糖假说。

Resolving the TorsinA Oligomerization Conundrum: The Glycan Hypothesis.

作者信息

Fercher Christian, Zacchi Lucía F

机构信息

Australian Research Council (ARC), Training Centre for Biopharmaceutical Innovation, The University of Queensland, St Lucia, QLD, Australia.

出版信息

Front Mol Biosci. 2020 Oct 2;7:585643. doi: 10.3389/fmolb.2020.585643. eCollection 2020.

DOI:10.3389/fmolb.2020.585643

PMID:33134321

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7567157/

Abstract

TorsinA is a AAA+ ATPase involved in the severe neurological disease Early Onset Torsion Dystonia. Despite the impressive progress in the field in the recent years, the structural organization and function of this intriguing molecule is still not clear. One outstanding difference between torsinA and other AAA+ ATPases is that torsinA is a glycoprotein. TorsinA -linked glycans impact torsinA biogenesis and subcellular localization. Here, we propose that torsinA glycans also modulate torsinA oligomerization properties. We used structural modeling to test this idea, and show that -linked glycans appear to restrict torsinA's ability to form closed homohexameric ring assemblies, and instead promote an open hexameric conformation that allows torsinA interaction with key cofactors required for ATP hydrolysis. This mechanism would make torsinA a prime example of Nature's sophisticated molecular glycoengineering.

摘要

扭转蛋白A是一种参与严重神经疾病早发性扭转性肌张力障碍的AAA+ATP酶。尽管近年来该领域取得了令人瞩目的进展，但这种有趣分子的结构组织和功能仍不清楚。扭转蛋白A与其他AAA+ATP酶之间一个显著的差异是，扭转蛋白A是一种糖蛋白。与扭转蛋白A相连的聚糖会影响扭转蛋白A的生物合成和亚细胞定位。在此，我们提出，扭转蛋白A聚糖还可调节扭转蛋白A的寡聚化特性。我们使用结构建模来验证这一观点，并表明与扭转蛋白A相连的聚糖似乎会限制其形成封闭的同型六聚体环组装体的能力，相反，会促进一种开放的六聚体构象，使扭转蛋白A能够与ATP水解所需的关键辅因子相互作用。这一机制将使扭转蛋白A成为自然界复杂分子糖基工程的一个典型例子。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a618/7567157/dfc8a0a1cb79/fmolb-07-585643-g001.jpg

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解开扭转蛋白A寡聚难题：聚糖假说。

Resolving the TorsinA Oligomerization Conundrum: The Glycan Hypothesis.

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