Paving the way for new antimicrobial peptides through molecular de-extinction.

IF 3.9 3区生物学 Q2 CELL BIOLOGY Microbial Cell Pub Date : 2025-02-20 eCollection Date: 2025-01-01 DOI:10.15698/mic2025.02.841

Karen O Osiro, Abel Gil-Ley, Fabiano C Fernandes, Kamila B S de Oliveira, Cesar de la Fuente-Nunez, Octavio L Franco

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Abstract

Molecular de-extinction has emerged as a novel strategy for studying biological molecules throughout evolutionary history. Among the myriad possibilities offered by ancient genomes and proteomes, antimicrobial peptides (AMPs) stand out as particularly promising alternatives to traditional antibiotics. Various strategies, including software tools and advanced deep learning models, have been used to mine these host defense peptides. For example, computational analysis of disulfide bond patterns has led to the identification of six previously uncharacterized β-defensins in extinct and critically endangered species. Additionally, artificial intelligence and machine learning have been utilized to uncover ancient antibiotics, revealing numerous candidates, including mammuthusin, and elephasin, which display inhibitory effects toward pathogens in vitro and in vivo. These innovations promise to discover novel antibiotics and deepen our insight into evolutionary processes.

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通过分子去灭绝为新的抗菌肽铺平道路。

分子反灭绝已成为研究生物分子进化史的一种新策略。在古代基因组和蛋白质组提供的无数可能性中，抗菌肽（amp）作为传统抗生素的特别有前途的替代品脱颖而出。各种策略，包括软件工具和先进的深度学习模型，已被用于挖掘这些宿主防御肽。例如，二硫键模式的计算分析导致在灭绝和极度濒危物种中鉴定出六种以前未表征的β-防御素。此外，人工智能和机器学习已被用于发现古代抗生素，揭示了许多候选抗生素，包括mammuthusin和大象素，它们在体外和体内对病原体表现出抑制作用。这些创新有望发现新的抗生素，并加深我们对进化过程的了解。

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