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Completion of the cytosolic post-chorismate phenylalanine biosynthetic pathway in plants

Yichun Qian, Joseph H. Lynch, Longyun Guo, David Rhodes, John A. Morgan and Natalia Dudareva ()
Additional contact information
Yichun Qian: Purdue University
Joseph H. Lynch: Purdue University
Longyun Guo: Purdue University
David Rhodes: Purdue University
John A. Morgan: Purdue University
Natalia Dudareva: Purdue University

Nature Communications, 2019, vol. 10, issue 1, 1-15

Abstract: Abstract In addition to being a vital component of proteins, phenylalanine is also a precursor of numerous aromatic primary and secondary metabolites with broad physiological functions. In plants phenylalanine is synthesized predominantly via the arogenate pathway in plastids. Here, we describe the structure, molecular players and subcellular localization of a microbial-like phenylpyruvate pathway for phenylalanine biosynthesis in plants. Using a reverse genetic approach and metabolic flux analysis, we provide evidence that the cytosolic chorismate mutase is responsible for directing carbon flux towards cytosolic phenylalanine production via the phenylpyruvate pathway. We also show that an alternative transcription start site of a known plastidial enzyme produces a functional cytosolic prephenate dehydratase that catalyzes the conversion of prephenate to phenylpyruvate, the intermediate step between chorismate mutase and phenylpyruvate aminotransferase. Thus, our results complete elucidation of phenylalanine biosynthesis via phenylpyruvate in plants, showing that this pathway splits from the known plastidial arogenate pathway at chorismate, instead of prephenate as previously thought, and the complete pathway is localized in the cytosol.

Date: 2019
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Citations: View citations in EconPapers (2)

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DOI: 10.1038/s41467-018-07969-2

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