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Journal ArticleOpen Access

Zinc finger proteins facilitate adaptation of a global insect pest to climate change

Authors

Author Affiliations
Ministry of Agriculture and Rural Affairs, Fujian Agriculture and Forestry University, Charles Sturt University, Ministry of Education, ...
Published InBMC Biology
Year2024
Citations8

Abstract

BACKGROUND: Global climate change significantly impacts ecosystems, particularly through temperature fluctuations that affect insect physiology and behavior. As poikilotherms, insect pests such as the globally devastating diamondback moth (DBM), Plutella xylostella, are especially vulnerable to rising temperatures and extreme heat events, necessitating effective adaptive mechanisms. RESULTS: Here we demonstrate the roles of zinc finger proteins (ZFPs) in mediating thermal adaptability in DBM. We utilized a comprehensive approach involving cloning and bioinformatics analysis of three ZFPs, PxZNF568, PxZNF93, and PxZNF266, measurement of their expression levels in hot-evolved and control strains, and assessment of catalase enzymatic activity and total antioxidant capacity. We also employed CRISPR/Cas9 technology to create five stable homozygous knockout strains to elucidate ZFP functions in high-temperature tolerance. Survival rates…
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