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Two forms of Opa1 cooperate to complete fusion of the mitochondrial inner-membrane.


ABSTRACT: Mitochondrial membrane dynamics is a cellular rheostat that relates metabolic function and organelle morphology. Using an in vitro reconstitution system, we describe a mechanism for how mitochondrial inner-membrane fusion is regulated by the ratio of two forms of Opa1. We found that the long-form of Opa1 (l-Opa1) is sufficient for membrane docking, hemifusion and low levels of content release. However, stoichiometric levels of the processed, short form of Opa1 (s-Opa1) work together with l-Opa1 to mediate efficient and fast membrane pore opening. Additionally, we found that excess levels of s-Opa1 inhibit fusion activity, as seen under conditions of altered proteostasis. These observations describe a mechanism for gating membrane fusion.

SUBMITTER: Ge Y 

PROVIDER: S-EPMC7299343 | biostudies-literature | 2020 Jan

REPOSITORIES: biostudies-literature

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Two forms of Opa1 cooperate to complete fusion of the mitochondrial inner-membrane.

Ge Yifan Y   Shi Xiaojun X   Boopathy Sivakumar S   McDonald Julie J   Smith Adam W AW   Chao Luke H LH  

eLife 20200110


Mitochondrial membrane dynamics is a cellular rheostat that relates metabolic function and organelle morphology. Using an in vitro reconstitution system, we describe a mechanism for how mitochondrial inner-membrane fusion is regulated by the ratio of two forms of Opa1. We found that the long-form of Opa1 (l-Opa1) is sufficient for membrane docking, hemifusion and low levels of content release. However, stoichiometric levels of the processed, short form of Opa1 (s-Opa1) work together with l-Opa1  ...[more]

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