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Cryo-EM structure of the respiratory I + III2 supercomplex from Arabidopsis thaliana at 2 Å resolution

N. Klusch, Maximilian Dreimann, Jennifer Senkler, Nils Rugen, Werner Kühlbrandt, Hans‐Peter Braun

2022Nature Plants89 citationsDOIOpen Access PDF

Abstract

Abstract Protein complexes of the mitochondrial respiratory chain assemble into respiratory supercomplexes. Here we present the high-resolution electron cryo-microscopy structure of the Arabidopsis respiratory supercomplex consisting of complex I and a complex III dimer, with a total of 68 protein subunits and numerous bound cofactors. A complex I-ferredoxin, subunit B14.7 and P9, a newly defined subunit of plant complex I, mediate supercomplex formation. The component complexes stabilize one another, enabling new detailed insights into their structure. We describe (1) an interrupted aqueous passage for proton translocation in the membrane arm of complex I; (2) a new coenzyme A within the carbonic anhydrase module of plant complex I defining a second catalytic centre; and (3) the water structure at the proton exit pathway of complex III 2 with a co-purified ubiquinone in the Q O site. We propose that the main role of the plant supercomplex is to stabilize its components in the membrane.

Topics & Concepts

Coenzyme Q – cytochrome c reductaseProtein subunitArabidopsisArabidopsis thalianaCryo-electron microscopyBiologyDimerFerredoxinMitochondrial respiratory chainCofactorElectron Transport Complex IBiochemistryRespiratory chainBiophysicsProtein structureChemistryMitochondrionCytochrome cGeneEnzymeOrganic chemistryMutantPhotosynthetic Processes and MechanismsATP Synthase and ATPases ResearchMitochondrial Function and Pathology
Cryo-EM structure of the respiratory I + III2 supercomplex from Arabidopsis thaliana at 2 Å resolution | Litcius