Litcius/Paper detail

<scp>HerbiPAD</scp>: a free web platform to comprehensively analyze constitutive property and herbicide‐likeness to estimate chemical bioavailability

Junjie Huang, Fan Wang, Yan Ouyang, Yuanqin Huang, Chen‐Yang Jia, Hang Zhong, Ge‐Fei Hao

2020Pest Management Science28 citationsDOI

Abstract

BACKGROUND: Herbicides, as efficient weed control measures, play a crucial role in ensuring food security. The emergence of herbicide-resistant weeds has negatively affected food security and promoted the demand for new and improved herbicides. The balance between bioavailability and the potency of a compound is one of the most pressing challenges in the development of novel ideal herbicides. Herbicide-likeness analysis is crucial for the evaluation of this balance and thus may help to address this issue. Many herbicide-likeness analysis methods have been developed to screen potential novel lead compounds. However, there remains a lack of user-friendly and integrated tools to comprehensively evaluate herbicide-likeness. RESULTS: Herbicide-likeness of compounds was assessed through integrated analysis incorporating the physicochemical properties of commercial herbicides, a qualitative rule, and three quantitative scoring functions developed for evaluating herbicide-likeness. HerbiPAD (http://agroda.gzu.edu.cn:9999/ccb/database/HerbiPAD/) is a free web platform integrated with the collected database and scoring model. This platform contains 542 approved herbicides and > 29 000 physicochemical descriptors. The accuracy of HerbiPAD in distinguishing known herbicides from nonherbicides was 84.2%. In the case study, HerbiPAD evaluated 60 new compounds from seven different herbicide targets, and the accuracy of predicting better bioavailability was 83.3%. CONCLUSIONS: HerbiPAD was designed to quickly and efficiently evaluate herbicide-likeness by integrating qualitative and quantitative analyses. The simple and effective interpretation of the analysis interface may help noncomputational experts understand herbicide-likeness. © 2020 Society of Chemical Industry.

Topics & Concepts

BioavailabilityBiochemical engineeringComputer scienceFood securityBiotechnologyAgricultureBiologyEngineeringEcologyBioinformaticsWeed Control and Herbicide ApplicationsAllelopathy and phytotoxic interactionsPesticide and Herbicide Environmental Studies