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Protein-protein interactions and metabolite channelling in the plant tricarboxylic acid cycle.


ABSTRACT: Protein complexes of sequential metabolic enzymes, often termed metabolons, may permit direct channelling of metabolites between the enzymes, providing increased control over metabolic pathway fluxes. Experimental evidence supporting their existence in vivo remains fragmentary. In the present study, we test binary interactions of the proteins constituting the plant tricarboxylic acid (TCA) cycle. We integrate (semi-)quantitative results from affinity purification-mass spectrometry, split-luciferase and yeast-two-hybrid assays to generate a single reliability score for assessing protein-protein interactions. By this approach, we identify 158 interactions including those between catalytic subunits of sequential enzymes and between subunits of enzymes mediating non-adjacent reactions. We reveal channelling of citrate and fumarate in isolated potato mitochondria by isotope dilution experiments. These results provide evidence for a functional TCA cycle metabolon in plants, which we discuss in the context of contemporary understanding of this pathway in other kingdoms.

SUBMITTER: Zhang Y 

PROVIDER: S-EPMC5440813 | biostudies-other | 2017 May

REPOSITORIES: biostudies-other

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Protein-protein interactions and metabolite channelling in the plant tricarboxylic acid cycle.

Zhang Youjun Y   Beard Katherine F M KFM   Swart Corné C   Bergmann Susan S   Krahnert Ina I   Nikoloski Zoran Z   Graf Alexander A   Ratcliffe R George RG   Sweetlove Lee J LJ   Fernie Alisdair R AR   Obata Toshihiro T  

Nature communications 20170516


Protein complexes of sequential metabolic enzymes, often termed metabolons, may permit direct channelling of metabolites between the enzymes, providing increased control over metabolic pathway fluxes. Experimental evidence supporting their existence in vivo remains fragmentary. In the present study, we test binary interactions of the proteins constituting the plant tricarboxylic acid (TCA) cycle. We integrate (semi-)quantitative results from affinity purification-mass spectrometry, split-lucifer  ...[more]

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