Absence of complex I is associated with diminished respiratory chain function in European mistletoe

Maclean, Andrew E., Hertle, Alexander P., Ligas, Joanna, Bock, Ralph, Balk, Janneke and Meyer, Etienne H. (2018) Absence of complex I is associated with diminished respiratory chain function in European mistletoe. Current Biology, 28 (10). 1614-1619.e3. ISSN 0960-9822

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Abstract

Parasitism is a life history strategy found across all domains of life whereby nutrition is obtained from a host. It is often associated with reductive evolution of the genome, including loss of genes from the organellar genomes [1, 2]. In some unicellular parasites, the mitochondrial genome (mitogenome) has been lost entirely, with far-reaching consequences for the physiology of the organism [3, 4]. Recently, mitogenome sequences of several species of the hemiparasitic plant mistletoe (Viscum sp.) have been reported [5, 6], revealing a striking loss of genes not seen in any other multicellular eukaryotes. In particular, the nad genes encoding subunits of respiratory complex I are all absent and other protein-coding genes are also lost or highly diverged in sequence, raising the question what remains of the respiratory complexes and mitochondrial functions. Here we show that oxidative phosphorylation (OXPHOS) in European mistletoe, Viscum album, is highly diminished. Complex I activity and protein subunits of complex I could not be detected. The levels of complex IV and ATP synthase were at least 5-fold lower than in the non-parasitic model plant Arabidopsis thaliana, whereas alternative dehydrogenases and oxidases were higher in abundance. Carbon flux analysis indicates that cytosolic reactions including glycolysis are greater contributors to ATP synthesis than the mitochondrial tricarboxylic acid (TCA) cycle. Our results describe the extreme adjustments in mitochondrial functions of the first reported multicellular eukaryote without complex I.

Item Type: Article
Uncontrolled Keywords: plant mitochondria,viscum album,hemiparasite,nadh:ubiquinone oxidoreductase,complex i,metabolic flux
Faculty \ School: Faculty of Science > School of Biological Sciences
UEA Research Groups: Faculty of Science > Research Groups > Molecular Microbiology
Faculty of Science > Research Groups > Plant Sciences
Depositing User: Pure Connector
Date Deposited: 05 Jun 2018 14:30
Last Modified: 21 Oct 2022 18:39
URI: https://ueaeprints.uea.ac.uk/id/eprint/67300
DOI: 10.1016/j.cub.2018.03.036

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