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Evolution of a flipped pathway creates metabolic innovation in tomato trichomes through BAHD enzyme promiscuity

Pengxiang Fan, Abigail M. Miller, Xiaoxiao Liu, A. Daniel Jones and Robert L. Last ()
Additional contact information
Pengxiang Fan: Michigan State University
Abigail M. Miller: Michigan State University
Xiaoxiao Liu: Michigan State University
A. Daniel Jones: Michigan State University
Robert L. Last: Michigan State University

Nature Communications, 2017, vol. 8, issue 1, 1-13

Abstract: Abstract Plants produce hundreds of thousands of structurally diverse specialized metabolites via multistep biosynthetic networks, including compounds of ecological and therapeutic importance. These pathways are restricted to specific plant groups, and are excellent systems for understanding metabolic evolution. Tomato and other plants in the nightshade family synthesize protective acylated sugars in the tip cells of glandular trichomes on stems and leaves. We describe a metabolic innovation in wild tomato species that contributes to acylsucrose structural diversity. A small number of amino acid changes in two acylsucrose acyltransferases alter their acyl acceptor preferences, resulting in reversal of their order of reaction and increased product diversity. This study demonstrates how small numbers of amino acid changes in multiple pathway enzymes can lead to diversification of specialized metabolites in plants. It also highlights the power of a combined genetic, genomic and in vitro biochemical approach to identify the evolutionary mechanisms leading to metabolic novelty.

Date: 2017
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DOI: 10.1038/s41467-017-02045-7

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