Litcius/Paper detail

Docking of acetyl-CoA carboxylase to the plastid envelope membrane attenuates fatty acid production in plants

Yajin Ye, Krisztina Nikovics, Alexandra To, Loı̈c Lepiniec, Eric T. Fedosejevs, Steven R. Van Doren, Sébastien Baud, Jay J. Thelen

2020Nature Communications74 citationsDOIOpen Access PDF

Abstract

In plants, light-dependent activation of de novo fatty acid synthesis (FAS) is partially mediated by acetyl-CoA carboxylase (ACCase), the first committed step for this pathway. However, it is not fully understood how plants control light-dependent FAS regulation to meet the cellular demand for acyl chains. We report here the identification of a gene family encoding for three small plastidial proteins of the envelope membrane that interact with the α-carboxyltransferase (α-CT) subunit of ACCase and participate in an original mechanism restraining FAS in the light. Light enhances the interaction between carboxyltransferase interactors (CTIs) and α-CT, which in turn attenuates carbon flux into FAS. Knockouts for CTI exhibit higher rates of FAS and marked increase in absolute triacylglycerol levels in leaves, more than 4-fold higher than in wild-type plants. Furthermore, WRINKLED1, a master transcriptional regulator of FAS, positively regulates CTI1 expression by direct binding to its promoter. This study reveals that in addition to light-dependent activation, "envelope docking" of ACCase permits fine-tuning of fatty acid supply during the plant life cycle.

Topics & Concepts

Acetyl-CoA carboxylasePyruvate carboxylaseFatty acid synthesisCell biologyFatty acid synthaseRegulatorBiochemistryBiologyFatty acidChemistryGeneEnzymeLipid metabolism and biosynthesisPhotosynthetic Processes and MechanismsPlant Molecular Biology Research