Jiayue Su, Xuyang Tian, Ziyi Wang, Jiawen Yang, Shan Sun, Sen-Fang Sui
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引用次数: 0
Abstract
The translocase of the outer membrane (TOM) complex serves as the main gate for preproteins entering mitochondria and thus plays a pivotal role in sustaining mitochondrial stability. Precursor proteins, featuring amino-terminal targeting signals (presequences) or internal targeting signals, are recognized by the TOM complex receptors Tom20, Tom22, and Tom70, and then translocated into mitochondria through Tom40. By using chemical cross-linking to stabilize Tom20 in the TOM complex, this study unveils the structure of the human TOM holo complex, encompassing the intact Tom20 component, at a resolution of approximately 6 Å by cryo-electron microscopy. Our structure shows the TOM holo complex containing only one Tom20 subunit, which is located right at the center of the complex and stabilized by extensive interactions with Tom22, Tom40, and Tom6. Based on the structure, we proposed a possible translocation mode of TOM complex, by which different receptors could work simultaneously to ensure that the preproteins recognized by them are all efficiently translocated into the mitochondria.
外膜转运酶(TOM)复合体是前体蛋白进入线粒体的主要通道,因此在维持线粒体稳定性方面发挥着关键作用。具有氨基末端靶向信号(前序)或内部靶向信号的前体蛋白会被 TOM 复合物受体 Tom20、Tom22 和 Tom70 识别,然后通过 Tom40 转运到线粒体中。本研究利用化学交联技术将 Tom20 稳定在 TOM 复合物中,通过冷冻电子显微镜以约 6 Å 的分辨率揭示了人类 TOM 整体复合物的结构,其中包括完整的 Tom20 成分。我们的结构显示,TOM整体复合物只包含一个Tom20亚基,它位于复合物的正中心,并通过与Tom22、Tom40和Tom6的广泛相互作用而稳定。根据该结构,我们提出了 TOM 复合物的一种可能的转运模式,即不同的受体可以同时工作,以确保它们识别的前蛋白都能有效地转运到线粒体中。
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