A dual-target herbicidal inhibitor of lysine biosynthesis

Mackie, Emily; Barrow, AS; Christoff, RM; Abbott, Belinda; Gendall, Anthony; Soares-da-Costa, Tatiana

doi:10.26181/21343320.v1

1202742_Abbot,B_2022.pdf (5.67 MB)

A dual-target herbicidal inhibitor of lysine biosynthesis

journal contribution

posted on 2022-10-17, 05:05 authored by Emily MackieEmily Mackie, AS Barrow, RM Christoff, Belinda AbbottBelinda Abbott, Anthony GendallAnthony Gendall, Tatiana Soares-da-CostaTatiana Soares-da-Costa

Herbicides with novel modes of action are urgently needed to safeguard global agricultural industries against the damaging effects of herbicide-resistant weeds. We recently developed the first herbicidal inhibitors of lysine biosynthesis, which provided proof-of-concept for a promising novel herbicide target. In this study, we expanded upon our understanding of the mode of action of herbicidal lysine biosynthesis inhibitors. We previously postulated that these inhibitors may act as proherbicides. Here, we show this is not the case. We report an additional mode of action of these inhibitors, through their inhibition of a second lysine biosynthesis enzyme, and investigate the molecular determinants of inhibition. Furthermore, we extend our herbicidal activity analyses to include a weed species of global significance.

Funding

Australian Research Council DE190100806 Tatiana P Soares da Costa Australian Research Council IH180100006 Anthony R Gendall Grains Research and Development Corporation 9176977 Emily RR Mackie

History

Publication Date

2022-06-20

Journal

eLife

Volume

11

Article Number

e78235

Pagination

11p.

Publisher

eLife Sciences Publications Ltd.

ISSN

2050-084X

Rights Statement

© Mackie et al. This article is distributed under the terms of the Creative Commons Attribution License, https://creativecommons.org/licenses/by/4.0/, which permits unrestricted use and redistribution provided that the original author and source are credited.