整合分子动力学模拟解开交联数据,揭开线粒体蛋白质分布的神秘面纱

Fabian Schuhmann, Kerem Can Akkaya, Dmytro Puchkov, Martin Lehmann, Fan Liu, Weria Pezeshkian
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引用次数: 0

摘要

交联质谱法(XL-MS)可以绘制细胞水平的蛋白质相互作用图。当应用于线粒体的所有分区时,交联和连接的数量之多可能会令人难以承受,从而使简单的聚类分析变得错综复杂且缺乏信息。为了解决这一局限性,我们将 XL-MS 数据、三维电子显微镜数据和定位注释与超粗粒度分子动力学模拟整合在一起,对所有数据进行分类,使聚类分析更易于理解和解释。在线粒体方面,这种方法通过总计 6.9 毫秒的模拟,成功识别了已知蛋白质群,提出了未知蛋白质群的建议,并揭示了线粒体内膜蛋白质的分布情况,从而可以更精确地定位区室。我们的综合方法表明,两个迄今位置模糊的蛋白质 FAM162A 和 TMEM126A 定位于嵴内,这一点通过超分辨率显微镜得到了验证。总之,这证明了所提出方法的巨大潜力。
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Integrative Molecular Dynamics Simulations Untangle Cross-Linking Data to Unveil Mitochondrial Protein Distributions
Cross-linking mass spectrometry (XL-MS) enables the mapping of protein-protein interactions on the cellular level. When applied to all compartments of mitochondria, the sheer number of cross-links and connections can be overwhelming, rendering simple cluster analyses convoluted and uninformative. To address this limitation, we integrate the XL-MS data, 3D electron microscopy data, and localization annotations with a supra coarse-grained molecular dynamics simulation to sort all data, making clusters more accessible and interpretable. In the context of mitochondria, this method, through a total of 6.9 milliseconds of simulations, successfully identifies known, suggests unknown protein clusters, and reveals the distribution of inner mitochondrial membrane proteins allowing a more precise localization within compartments. Our integrative approach suggests, that two so-far ambigiously placed proteins FAM162A and TMEM126A are localized in the cristae, which is validated through super resolution microscopy. Together, this demonstrates the strong potential of the presented approach.
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