折叠形成自噬体：ATG5揭示了植物如何做到这一点。

Folding into an autophagosome: ATG5 sheds light on how plants do it.

作者信息

Le Bars Romain, Marion Jessica, Satiat-Jeunemaitre Béatrice, Bianchi Michele Wolfe

机构信息

Laboratoire Dynamique de la Compartimentation Cellulaire; CNRS UPR2355/IFR87; Institut des Sciences du Végétal; Centre de Recherche de Gif (FRC3115); Saclay Plant Sciences; Gif-sur-Yvette, France.

Laboratoire Dynamique de la Compartimentation Cellulaire; CNRS UPR2355/IFR87; Institut des Sciences du Végétal; Centre de Recherche de Gif (FRC3115); Saclay Plant Sciences; Gif-sur-Yvette, France; Pôle de Biologie Cellulaire; Imagif; Centre de Recherche de Gif; Saclay Plant Sciences; CNRS; Gif-sur-Yvette, France.

出版信息

Autophagy. 2014 Oct 1;10(10):1861-3. doi: 10.4161/auto.29962. Epub 2014 Jul 23.

DOI:10.4161/auto.29962

PMID:25126730

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4198369/

Abstract

Autophagosomes arise in yeast and animals from the sealing of a cup-shaped double-membrane precursor, the phagophore. The concerted action of about 30 evolutionarily conserved autophagy related (ATG) proteins lies at the core of this process. However, the mechanisms allowing phagophore generation and its differentiation into a sealed autophagosome are still not clear in detail, and very little is known in plants. This is due in part to the scarcity of structurally informative, real-time imaging data of ATG proteins at the phagophore site. Among these, the ATG5 complex directs anchoring of ATG8 to the phagophore, an event required for membrane expansion. Detailed real-time and 3D imaging of ATG5, ATG8, and an ER marker at the expanding phagophore allowed us to propose a model for autophagosome formation in plants. This model implies tight connections of the growing phagophore with the outer face of the cortical endoplasmic reticulum and prompts new questions on the mechanism of autophagosome biogenesis.

摘要

自噬体在酵母和动物中由杯状双膜前体（即吞噬泡）的封闭形成。约30种进化上保守的自噬相关（ATG）蛋白的协同作用是这一过程的核心。然而，吞噬泡的产生及其分化为封闭自噬体的机制仍不清楚，在植物中了解得更少。部分原因是缺乏吞噬泡部位ATG蛋白的结构信息丰富的实时成像数据。其中，ATG5复合物指导ATG8锚定到吞噬泡上，这是膜扩张所必需的事件。对扩张的吞噬泡处的ATG5、ATG8和内质网标记物进行详细的实时和三维成像，使我们能够提出植物中自噬体形成的模型。该模型意味着生长中的吞噬泡与皮质内质网的外表面紧密相连，并引发了关于自噬体生物发生机制的新问题。

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折叠形成自噬体：ATG5揭示了植物如何做到这一点。

Folding into an autophagosome: ATG5 sheds light on how plants do it.

作者信息

Le Bars Romain, Marion Jessica, Satiat-Jeunemaitre Béatrice, Bianchi Michele Wolfe

机构信息

Laboratoire Dynamique de la Compartimentation Cellulaire; CNRS UPR2355/IFR87; Institut des Sciences du Végétal; Centre de Recherche de Gif (FRC3115); Saclay Plant Sciences; Gif-sur-Yvette, France.

出版信息

Autophagy. 2014 Oct 1;10(10):1861-3. doi: 10.4161/auto.29962. Epub 2014 Jul 23.

DOI:10.4161/auto.29962

PMID:25126730

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4198369/

Abstract

摘要

折叠形成自噬体：ATG5揭示了植物如何做到这一点。

Folding into an autophagosome: ATG5 sheds light on how plants do it.

作者信息

机构信息

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折叠形成自噬体：ATG5揭示了植物如何做到这一点。

Folding into an autophagosome: ATG5 sheds light on how plants do it.

作者信息

机构信息

出版信息