农业
抗菌肽
生物技术
可持续农业
抗菌剂
生化工程
管道(软件)
风险分析(工程)
业务
计算机科学
人类健康
工程类
持续性
生物
抗生素
作者
Lina Blandón,Andrea Mesa,Sergio Andrés Orduz
标识
DOI:10.1177/1934578x261426828
摘要
The use of pesticides, fertilizers, copper compounds, and antibiotics to control microbial diseases in crops has caused adverse effects on human health and the environment, as well as the emergence of multidrug-resistant phytopathogenic bacteria and fungi. In this sense, to minimize reliance on agricultural chemicals and protect the environment, current agricultural practices are integrating life sciences technologies, such as genomics, big data, and artificial intelligence. For instance, the discovery and design of antimicrobial peptides integrate these areas. These peptides have become ideal candidates for promoting sustainable agricultural models. They are small, amphipathic, and polycationic molecules with a complex and diverse mode of action, which makes it difficult for microbes to develop resistance. In this review, we present advances in artificial intelligence and computational approaches for antimicrobial peptide design, along with a pipeline for designing antimicrobial peptides that utilize computational and artificial intelligence strategies extensively employed in our research group. Besides, we summarize advances in peptide research as a promising strategy for sustainable agricultural practices.
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