Litcius/Paper detail

Neofunctionalization of a second insulin receptor gene in the wing-dimorphic planthopper, Nilaparvata lugens

Wen-Hua Xue, Nan Xu, Sun‐Jie Chen, Xin‐Yang Liu, Jin-Li Zhang, Hai‐Jun Xu

2021PLoS Genetics23 citationsDOIOpen Access PDF

Abstract

A single insulin receptor (InR) gene has been identified and extensively studied in model species ranging from nematodes to mice. However, most insects possess additional copies of InR, yet the functional significance, if any, of alternate InRs is unknown. Here, we used the wing-dimorphic brown planthopper (BPH) as a model system to query the role of a second InR copy in insects. NlInR2 resembled the BPH InR homologue (NlInR1) in terms of nymph development and reproduction, but revealed distinct regulatory roles in fuel metabolism, lifespan, and starvation tolerance. Unlike a lethal phenotype derived from NlInR1 null, homozygous NlInR2 null mutants were viable and accelerated DNA replication and cell proliferation in wing cells, thus redirecting short-winged-destined BPHs to develop into long-winged morphs. Additionally, the proper expression of NlInR2 was needed to maintain symmetric vein patterning in wings. Our findings provide the first direct evidence for the regulatory complexity of the two InR paralogues in insects, implying the functionally independent evolution of multiple InRs in invertebrates.

Topics & Concepts

BiologyBrown planthopperNeofunctionalizationWingSexual dimorphismGenePhenotypeGeneticsMutantCell biologyEvolutionary biologyGene duplicationZoologyAerospace engineeringEngineeringNeurobiology and Insect Physiology ResearchPlant Molecular Biology ResearchInsect Resistance and Genetics