Flygaard_2020_Nat.Commun_11_5342

Reference

Title : Type III ATP synthase is a symmetry-deviated dimer that induces membrane curvature through tetramerization - Flygaard_2020_Nat.Commun_11_5342
Author(s) : Flygaard RK , Muhleip A , Tobiasson V , Amunts A
Ref : Nat Commun , 11 :5342 , 2020
Abstract :

Mitochondrial ATP synthases form functional homodimers to induce cristae curvature that is a universal property of mitochondria. To expand on the understanding of this fundamental phenomenon, we characterized the unique type III mitochondrial ATP synthase in its dimeric and tetrameric form. The cryo-EM structure of a ciliate ATP synthase dimer reveals an unusual U-shaped assembly of 81 proteins, including a substoichiometrically bound ATPTT2, 40 lipids, and co-factors NAD and CoQ. A single copy of subunit ATPTT2 functions as a membrane anchor for the dimeric inhibitor IF(1). Type III specific linker proteins stably tie the ATP synthase monomers in parallel to each other. The intricate dimer architecture is scaffolded by an extended subunit-a that provides a template for both intra- and inter-dimer interactions. The latter results in the formation of tetramer assemblies, the membrane part of which we determined to 3.1 A resolution. The structure of the type III ATP synthase tetramer and its associated lipids suggests that it is the intact unit propagating the membrane curvature.

PubMedSearch : Flygaard_2020_Nat.Commun_11_5342
PubMedID: 33093501
Gene_locus related to this paper: tetts-q230b2

Related information

Gene_locus tetts-q230b2
Structure 6YNY    6YNX    6YNZ

Citations formats

Flygaard RK, Muhleip A, Tobiasson V, Amunts A (2020)
Type III ATP synthase is a symmetry-deviated dimer that induces membrane curvature through tetramerization
Nat Commun 11 :5342

Flygaard RK, Muhleip A, Tobiasson V, Amunts A (2020)
Nat Commun 11 :5342