New Approaches to Herbicide and Bioherbicide Discovery

Stephen O. Duke; Alyssa Twitty; Claire Baker; David Sands; Louis Boddy; María Lucía Travaini; Gustavo Sosa; Alexander L.A. Polidore; Amit J. Jhala; Jack M. Kloeber; Xavier Jacq; Lucas Lieber; Maria Celeste Varela; Martina Lazzaro; Ana P. Alessio; Christopher C. Ladner; Denis Fourches; Itai Bloch; Maayan Gal; Jonathan Gressel; Karthik Putta; Yael Phillip; Ifat Shub; Eyal Ben-Chanoch; Franck E. Dayan

doi:10.1017/wsc.2024.54

New Approaches to Herbicide and Bioherbicide Discovery

Stephen O. Duke, Alyssa Twitty, Claire Baker, David Sands, Louis Boddy, María Lucía Travaini, Gustavo Sosa, Alexander L.A. Polidore, Amit J. Jhala, Jack M. Kloeber, Xavier Jacq, Lucas Lieber, Maria Celeste Varela, Martina Lazzaro, Ana P. Alessio, Christopher C. Ladner, Denis Fourches, Itai Bloch, Maayan Gal, Jonathan GresselKarthik Putta, Yael Phillip, Ifat Shub, Eyal Ben-Chanoch, Franck E. Dayan^*

^*Corresponding author for this work

School of Dentistry

Research output: Contribution to journal › Review article › peer-review

2 Scopus citations

Abstract

During the past 30 yr an impasse has developed in the discovery and commercialization of synthetic herbicides with new molecular targets and novel chemistries. Similarly, there has been little success with bioherbicides, both microbial and chemical. These bioherbicides are needed to combat fast-growing herbicide resistance and to fulfill the need for more environmentally and toxicologically safe herbicides. In response to this substantial and growing opportunity, numerous start-up companies are utilizing novel approaches to provide new tools for weed management. These diverse new tools broaden the scope of discovery, encompassing advanced computational, bioinformatic, and imaging platforms; plant genome–editing and targeted protein degradation technologies; and machine learning and artificial intelligence (AI)-based strategies. This review contains summaries of the presentations of 10 such companies that took part in a symposium held at the WSSA annual meeting in 2024. Four of the companies are developing microbial bioherbicides or natural product–based herbicides, and the other six are using advanced technologies, such as AI, to accelerate the discovery of herbicides with novel molecular target sites or to develop non-GMO, herbicide-resistant crops.

Original language	English
Pages (from-to)	444-464
Number of pages	21
Journal	Weed Science
Volume	72
Issue number	5
DOIs	https://doi.org/10.1017/wsc.2024.54
State	Published - 1 Sep 2024

Keywords

Artificial intelligence
DNA-encoded library
PROTAC
biocontrol
biosynthetic gene cluster
mode of action
mycoherbicide
natural phytotoxin
natural products
protein–protein interaction
structure-based design
targeted protein degradation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1017/wsc.2024.54

Cite this

Duke, S. O., Twitty, A., Baker, C., Sands, D., Boddy, L., Travaini, M. L., Sosa, G., Polidore, A. L. A., Jhala, A. J., Kloeber, J. M., Jacq, X., Lieber, L., Varela, M. C., Lazzaro, M., Alessio, A. P., Ladner, C. C., Fourches, D., Bloch, I., Gal, M., ... Dayan, F. E. (2024). New Approaches to Herbicide and Bioherbicide Discovery. Weed Science, 72(5), 444-464. https://doi.org/10.1017/wsc.2024.54

@article{38fe64097e54466b86a775d681101a7c,

title = "New Approaches to Herbicide and Bioherbicide Discovery",

abstract = "During the past 30 yr an impasse has developed in the discovery and commercialization of synthetic herbicides with new molecular targets and novel chemistries. Similarly, there has been little success with bioherbicides, both microbial and chemical. These bioherbicides are needed to combat fast-growing herbicide resistance and to fulfill the need for more environmentally and toxicologically safe herbicides. In response to this substantial and growing opportunity, numerous start-up companies are utilizing novel approaches to provide new tools for weed management. These diverse new tools broaden the scope of discovery, encompassing advanced computational, bioinformatic, and imaging platforms; plant genome–editing and targeted protein degradation technologies; and machine learning and artificial intelligence (AI)-based strategies. This review contains summaries of the presentations of 10 such companies that took part in a symposium held at the WSSA annual meeting in 2024. Four of the companies are developing microbial bioherbicides or natural product–based herbicides, and the other six are using advanced technologies, such as AI, to accelerate the discovery of herbicides with novel molecular target sites or to develop non-GMO, herbicide-resistant crops.",

keywords = "Artificial intelligence, DNA-encoded library, PROTAC, biocontrol, biosynthetic gene cluster, mode of action, mycoherbicide, natural phytotoxin, natural products, protein–protein interaction, structure-based design, targeted protein degradation",

author = "Duke, {Stephen O.} and Alyssa Twitty and Claire Baker and David Sands and Louis Boddy and Travaini, {Mar{\'i}a Luc{\'i}a} and Gustavo Sosa and Polidore, {Alexander L.A.} and Jhala, {Amit J.} and Kloeber, {Jack M.} and Xavier Jacq and Lucas Lieber and Varela, {Maria Celeste} and Martina Lazzaro and Alessio, {Ana P.} and Ladner, {Christopher C.} and Denis Fourches and Itai Bloch and Maayan Gal and Jonathan Gressel and Karthik Putta and Yael Phillip and Ifat Shub and Eyal Ben-Chanoch and Dayan, {Franck E.}",

note = "Publisher Copyright: {\textcopyright} The Author(s), 2024.",

year = "2024",

month = sep,

day = "1",

doi = "10.1017/wsc.2024.54",

language = "אנגלית",

volume = "72",

pages = "444--464",

journal = "Weed Science",

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publisher = "Cambridge University Press",

number = "5",

}

Duke, SO, Twitty, A, Baker, C, Sands, D, Boddy, L, Travaini, ML, Sosa, G, Polidore, ALA, Jhala, AJ, Kloeber, JM, Jacq, X, Lieber, L, Varela, MC, Lazzaro, M, Alessio, AP, Ladner, CC, Fourches, D, Bloch, I, Gal, M, Gressel, J, Putta, K, Phillip, Y, Shub, I, Ben-Chanoch, E & Dayan, FE 2024, 'New Approaches to Herbicide and Bioherbicide Discovery', Weed Science, vol. 72, no. 5, pp. 444-464. https://doi.org/10.1017/wsc.2024.54

TY - JOUR

T1 - New Approaches to Herbicide and Bioherbicide Discovery

AU - Duke, Stephen O.

AU - Twitty, Alyssa

AU - Baker, Claire

AU - Sands, David

AU - Boddy, Louis

AU - Travaini, María Lucía

AU - Sosa, Gustavo

AU - Polidore, Alexander L.A.

AU - Jhala, Amit J.

AU - Kloeber, Jack M.

AU - Jacq, Xavier

AU - Lieber, Lucas

AU - Varela, Maria Celeste

AU - Lazzaro, Martina

AU - Alessio, Ana P.

AU - Ladner, Christopher C.

AU - Fourches, Denis

AU - Bloch, Itai

AU - Gal, Maayan

AU - Gressel, Jonathan

AU - Putta, Karthik

AU - Phillip, Yael

AU - Shub, Ifat

AU - Ben-Chanoch, Eyal

AU - Dayan, Franck E.

PY - 2024/9/1

Y1 - 2024/9/1

N2 - During the past 30 yr an impasse has developed in the discovery and commercialization of synthetic herbicides with new molecular targets and novel chemistries. Similarly, there has been little success with bioherbicides, both microbial and chemical. These bioherbicides are needed to combat fast-growing herbicide resistance and to fulfill the need for more environmentally and toxicologically safe herbicides. In response to this substantial and growing opportunity, numerous start-up companies are utilizing novel approaches to provide new tools for weed management. These diverse new tools broaden the scope of discovery, encompassing advanced computational, bioinformatic, and imaging platforms; plant genome–editing and targeted protein degradation technologies; and machine learning and artificial intelligence (AI)-based strategies. This review contains summaries of the presentations of 10 such companies that took part in a symposium held at the WSSA annual meeting in 2024. Four of the companies are developing microbial bioherbicides or natural product–based herbicides, and the other six are using advanced technologies, such as AI, to accelerate the discovery of herbicides with novel molecular target sites or to develop non-GMO, herbicide-resistant crops.

AB - During the past 30 yr an impasse has developed in the discovery and commercialization of synthetic herbicides with new molecular targets and novel chemistries. Similarly, there has been little success with bioherbicides, both microbial and chemical. These bioherbicides are needed to combat fast-growing herbicide resistance and to fulfill the need for more environmentally and toxicologically safe herbicides. In response to this substantial and growing opportunity, numerous start-up companies are utilizing novel approaches to provide new tools for weed management. These diverse new tools broaden the scope of discovery, encompassing advanced computational, bioinformatic, and imaging platforms; plant genome–editing and targeted protein degradation technologies; and machine learning and artificial intelligence (AI)-based strategies. This review contains summaries of the presentations of 10 such companies that took part in a symposium held at the WSSA annual meeting in 2024. Four of the companies are developing microbial bioherbicides or natural product–based herbicides, and the other six are using advanced technologies, such as AI, to accelerate the discovery of herbicides with novel molecular target sites or to develop non-GMO, herbicide-resistant crops.

KW - Artificial intelligence

KW - DNA-encoded library

KW - PROTAC

KW - biocontrol

KW - biosynthetic gene cluster

KW - mode of action

KW - mycoherbicide

KW - natural phytotoxin

KW - natural products

KW - protein–protein interaction

KW - structure-based design

KW - targeted protein degradation

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AN - SCOPUS:85206697824

SN - 0043-1745

VL - 72

SP - 444

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JO - Weed Science

JF - Weed Science

IS - 5

ER -

New Approaches to Herbicide and Bioherbicide Discovery

Abstract

Keywords

UN SDGs

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