The Golgi Rim is a Precise Tetraplex of Golgin Proteins that Can Self-Assemble into Filamentous Bands.

bioRxiv : the preprint server for biology Pub Date : 2025-03-28 DOI:10.1101/2025.03.27.645134

Maohan Su, Abhijith Radhakrishnan, You Yan, Yuan Tian, Hong Zheng, Ons M'Saad, Morven Graham, Jeff Coleman, Jean N D Goder, Xinran Liu, Yongdeng Zhang, Joerg Bewersdorf, James E Rothman

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Abstract

Golgin proteins have long been suspected to be organizers of the Golgi stack. Using three-dimensional super-resolution microscopy, we comprehensively localize the human golgin family at the rim of the Golgi apparatus at 10-20 nm resolution in situ. Unexpectedly, we find that the golgins are precisely organized into a tetraplex with four discrete layers, each containing a specific set of rim golgins. We observe no golgins inside the stack between its membrane-bound cisternae. Biochemically characterizing most of the golgins as isolated proteins, we find that they form anti-parallel dimers and further self-assemble into bands of multi-micron-long filaments. Based on our findings, we propose an "outside-in" physical model, the Golgin Organizer Hypothesis, in which the Golgi stack of cisternae and its overall ribbon morphology directly result from bending circumferential bands of rim golgin filaments onto a membrane surface, explaining stack formation without the need for special "stacking proteins."

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高尔基体边缘是高尔基蛋白的精确四联体，可以自我组装成丝状带。

长期以来，人们一直怀疑高尔基蛋白是高尔基堆叠的组织者。利用三维超分辨率显微镜，我们在高尔基体边缘以10-20 nm的分辨率全面定位了人类高尔基家族。出乎意料的是，我们发现高尔金被精确地组织成一个有四个离散层的四面体，每个层包含一组特定的边缘高尔金。我们观察到在其膜结合池之间的堆栈内没有高尔金。我们将大多数高尔金蛋白作为分离蛋白进行生化表征，发现它们形成反平行二聚体，并进一步自组装成多微米长的细丝带。基于我们的发现，我们提出了一个“由外而内”的物理模型，戈尔金组织者假说，其中池池的高尔基堆积及其整体带状形态直接来自边缘戈尔金细丝在膜表面上弯曲的圆周带，解释了堆积形成而不需要特殊的“堆叠蛋白质”。

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bioRxiv : the preprint server for biology

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