系留
细胞器
过氧化物酶体
功能(生物学)
计算生物学
线粒体
胞浆
生物
化学
细胞生物学
生物物理学
生物化学
基因
酶
作者
Nadav Shai,Eden Yifrach,Carlo W.T. van Roermund,Nir Cohen,Chen Bibi,Lodewijk IJlst,Laetitia Cavellini,Julie Meurisse,Ramona Schuster,Lior Zada,Muriel Mari,Fulvio Reggiori,Adam L. Hughes,Mafalda Escobar‐Henriques,Mickaël M. Cohen,Hans R. Waterham,Ronald J. A. Wanders,Maya Schuldiner,Einat Zalckvar
标识
DOI:10.1038/s41467-018-03957-8
摘要
Abstract The understanding that organelles are not floating in the cytosol, but rather held in an organized yet dynamic interplay through membrane contact sites, is altering the way we grasp cell biological phenomena. However, we still have not identified the entire repertoire of contact sites, their tethering molecules and functions. To systematically characterize contact sites and their tethering molecules here we employ a proximity detection method based on split fluorophores and discover four potential new yeast contact sites. We then focus on a little-studied yet highly disease-relevant contact, the Peroxisome-Mitochondria (PerMit) proximity, and uncover and characterize two tether proteins: Fzo1 and Pex34. We genetically expand the PerMit contact site and demonstrate a physiological function in β-oxidation of fatty acids. Our work showcases how systematic analysis of contact site machinery and functions can deepen our understanding of these structures in health and disease.
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