Abstract
In land plants and green algae, mitochondria and chloroplasts were acquired sequentially through primary endosymbiotic events with a α-proteobacterium and a cyanobacterium, respectively. The inner membrane of the mitochondria harbors the enzyme complexes of the respiratory chain, the largest of them being the rotenone-sensitive NADH:ubiquinone oxidoreductase or complex I. In the thylakoid membrane of the chloroplast, besides the photosynthetic machinery, a light-independent respiratory-chain inherited from cyanobacteria drives electrons from NAD(P)H to oxygen. In most plants and algae, it comprises a homolog of bacterial complex I (NAD(P)H:plastoquinone (PQ) oxidoreductase) and a PQ oxidase (PTOX). This chapter will be thus dedicated to similarities and peculiarities of plant mitochondrial complex I compared to the well studied enzyme in mammals and fungi, as well as to the structure and role of a complex I homolog in chloroplast.
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Acknowledgements
Work on Chlamydomonas complex I was supported by a grant from the United Mitochondrial Disease Foundation (PH, CR) and FRS-FNRS 1.5.255.08 (CR), 2.4601.08 (CR), 1.5.103.10 (PC), 1.C057.09 (PC) and Action de la Recherche Concertée ARC07/12 -04 (CR). VL is supported by a FRIA fellowship. PC is a research associate from FRS-FNRS. We thank Dr. R. Lamb for critical reading of the manuscript.
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Remacle, C., Hamel, P., Larosa, V., Subrahmanian, N., Cardol, P. (2012). Complexes I in the Green Lineage. In: Sazanov, L. (eds) A Structural Perspective on Respiratory Complex I. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-4138-6_11
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