Litcius/Paper detail

A supergene controls facultative diapause in the crop pest Helicoverpa armigera

Minghui Jin, Yan Peng, Jie Peng, Songmiao Yu, Chao Wu, Xianming Yang, Jing‐Yun Zhu, O. Infante, Qi Xu, Hongru Wang, Kongming Wu, Yutao Xiao

2024Cell Reports16 citationsDOIOpen Access PDF

Abstract

Many insect species, including the economically important pest Helicoverpa armigera, avoid unfavorable conditions by suspending development. This form of phenotypic plasticity-facultative diapause-is a complex trait, though its evolution and intricate genetic architecture remain poorly understood. To investigate how such a polygenic trait could be locally adapted, we explore its genetic architecture. We map a large-effect diapause-associated locus to the Z chromosome by crossing high- and low-latitude populations. By generating multiple chromosome-scale assemblies, we identify an ∼5.93-Mb chromosomal inversion that constitutes the locus. Within this inversion, 33 genes harbor divergent non-synonymous mutations, notably including three circadian rhythm genes: Period, Clock, and Cycle. CRISPR-Cas9 knockout experiments confirm that each gene is independently essential for pupal diapause. Thus, a diapause supergene arose within H. armigera via a Z chromosome inversion, enabling local climatic adaptation in this economically important crop pest.

Topics & Concepts

Helicoverpa armigeraFacultativePEST analysisBiologyDiapauseCropAgronomyEcologyBotanyLarvaInsect Resistance and GeneticsInsect-Plant Interactions and ControlAgricultural pest management studies