Xenia Chelius scite author profile

Mitochondria are separated from the remainder of the eukaryotic cell by the mitochondrial outer membrane (MOM). The MOM plays an important role in different transport processes like lipid trafficking and protein import. In yeast, the ER-mitochondria encounter structure (ERMES) has a central, but poorly defined role in both activities. To understand the functions of the ERMES, we searched for suppressors of the deficiency of one of its components, Mdm10, and identified a novel mitochondrial protein that we named Mdm10 complementing protein 3 (Mcp3). Mcp3 partially rescues a variety of ERMES-related phenotypes.We further demonstrate that Mcp3 is an integral protein of the MOM that follows a unique import pathway. It is recognized initially by the import receptor Tom70 and then crosses the MOM via the translocase of the outer membrane. Mcp3 is next relayed to the TIM23 translocase at the inner membrane, gets processed by the inner membrane peptidase (IMP) and finally integrates into the MOM. Hence, Mcp3 follows a novel biogenesis route where a MOM protein is processed by a peptidase of the inner membrane.

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Mcp3 is a novel mitochondrial outer membrane protein that follows a unique IMP ‐dependent biogenesis pathway

Sinzel¹,

Tan²,

Wendling³

et al. 2017

EMBO Reports

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The UbiB family member Cqd1 forms a novel membrane contact site in mitochondria

Khosravi

Chelius

Unger

et al. 2023

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Mitochondria are essential organelles of eukaryotic cells that are characterized by their unique and complex membrane system. They are confined from the cytosol by an envelope consisting of two membranes. Signals, metabolites, proteins and lipids have to be transferred across these membranes via proteinaceous contact sites to keep mitochondria functional. In the present study we identified a novel mitochondrial contact site that is formed by the inner membrane protein Cqd1 and the outer membrane proteins Por1 and Om14. Similar to the mitochondrial porin, Por1, Cqd1 is highly conserved, suggesting that this complex is conserved in form and function from yeast to human. Cqd1 is a member of the UbiB protein kinase-like family (also called aarF domain containing kinases). It was recently shown that Cqd1 in cooperation with Cqd2 controls the cellular distribution of coenzyme Q by a yet unknown mechanism. Our data suggest that Cqd1 is additionally involved in phospholipid homeostasis. Moreover, overexpression of CQD1 and CQD2 causes tethering of mitochondria to the endoplasmic reticulum, which might explain the ability of Cqd2 to rescue ERMES deletion phenotypes.

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Author Reply to Peer Reviews of The intra-mitochondrial contact site formed by Cqd1 and the Por1-Om14 complex modulates architecture and morphology of mitochondria

Harner¹,

Neupert²,

Klecker³

et al. 2022

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Xenia Chelius

Fusion, fission, and transport control asymmetric inheritance of mitochondria and protein aggregates

Mcp3 is a novel mitochondrial outer membrane protein that follows a unique IMP‐dependent biogenesis pathway

Mcp3 is a novel mitochondrial outer membrane protein that follows a unique IMP ‐dependent biogenesis pathway

The UbiB family member Cqd1 forms a novel membrane contact site in mitochondria

Author Reply to Peer Reviews of The intra-mitochondrial contact site formed by Cqd1 and the Por1-Om14 complex modulates architecture and morphology of mitochondria

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