Role of Cytosolic, Tyrosine-Insensitive Prephenate Dehydrogenase inMedicago truncatula

Author:

Schenck Craig A.ORCID,Westphal Josh,Jayaraman Dhileepkumar,Garcia KevinORCID,Wen JiangqiORCID,Mysore Kirankumar S.ORCID,Ané Jean-Michel,Sumner Lloyd W.,Maeda Hiroshi A.ORCID

Abstract

ABSTRACTL-Tyrosine (Tyr) is an aromatic amino acid synthesizedde novoin plants and microbes downstream of the shikimate pathway. In plants, Tyr and a Tyr pathway intermediate, 4-hydroxyphenylpyruvate (HPP), are precursors to numerous specialized metabolites, which are crucial for plant and human health. Tyr is synthesized in the plastids by a TyrA family enzyme, arogenate dehydrogenase (ADH/TyrAa), which is feedback inhibited by Tyr. In addition to ADH enzymes, many legumes possess prephenate dehydrogenases (PDH/TyrAp), which are insensitive to Tyr and localized to the cytosol. Yet the role of PDH in legumes is currently unknown. This study isolated and characterizedTnt1-transposon mutants ofMtPDH1(pdh1) inMedicago truncatulato investigate PDH function. Thepdh1mutants lackedPDHtranscript, PDH activity, and displayed little aberrant morphological phenotypes under standard growth conditions providing genetic evidence thatMtPDH1is responsible for the PDH activity detected inM. truncatula. Though plant PDH enzymes and activity have been specifically found in legumes, nodule number and nitrogenase activity ofpdh1mutants were not significantly reduced compared to wild-type (Wt) during symbiosis with nitrogen-fixing bacteria. Although Tyr levels were not significantly different between Wt and mutants under standard conditions, when carbon flux was increased by shikimate precursor feeding, mutants accumulated significantly less Tyr than Wt. These data suggest that MtPDH1 is involved in Tyr biosynthesis when the shikimate pathway is stimulated, and possibly linked to unidentified legume-specific specialized metabolism.

Publisher

Cold Spring Harbor Laboratory

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