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J Biol Chem. 2012 Jul 27;287(31):25749-57. doi: 10.1074/jbc.M112.373506. Epub 2012 Jun 6.

Accumulation of newly synthesized F1 in vivo in arabidopsis mitochondria provides evidence for modular assembly of the plant F1Fo ATP synthase.

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ARC Centre of Excellence in Plant Energy Biology, The University of Western Australia, Crawley WA 6009, Western Australia, Australia.


F(1) subcomplex in mitochondrial samples is often considered to be a breakage product of the F(1)F(O) ATP synthase during sample handling and electrophoresis. We have used a progressive (15)N incorporation strategy to investigate the plant F(1)F(O) ATP synthase assembly model and the apparently free F(1) in plant mitochondria which is found in both the inner membrane and matrix. We show that subunits within F(1) in the inner membrane and matrix had a relatively higher (15)N incorporation rate than corresponding subunits in intact membrane F(1)F(O). This demonstrates that free F(1) was a newer pool with a faster turnover rate consistent with it being an assembly intermediate in vivo. Import of [(35)S]Met-labeled F(1) subunit precursors into Arabidopsis mitochondria showed the rapid accumulation of F(1) assembly intermediates. The different (15)N incorporation rate in matrix F(1), inner membrane F(1) and intact F(1)F(O) demonstrates these three represent different protein populations and are likely step by step intermediates during the assembly process of plant mitochondrial ATP synthase. The potential biological implications of in vivo accumulation of enzymatically active F(1) in mitochondria are discussed.

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