RNA interference against the putative insulin receptor substrate gene IRS1 affects growth and development in the pest natural enemy Pardosa pseudoannulata

Author:

Li Xuelai1,Li Wei2,Zhang Shichang1,Sang Wen3ORCID,Peng Yu2ORCID,Zhao Yao1ORCID

Affiliation:

1. State Key Laboratory of Biocatalysis and Enzyme Engineering, School of Life Sciences Hubei University Wuhan China

2. Hubei Key Laboratory of Regional Development and Environmental Response, Faculty of Resources and Environmental Science Hubei University Wuhan China

3. College of Plant Protection South China Agricultural University Guangzhou China

Abstract

AbstractBACKGROUNDInsulin signalling pathways play crucial roles in regulating growth and development in insects, but their effects on the growth and development of Arachnids, such as spiders, have rarely been studied. As a valuable pest natural enemy in agricultural fields, the molecular mechanisms of insulin signalling pathway‐mediated growth and development of the wolf spider, Pardosa pseudoannulata, are of particular interest.RESULTSIn this study, we identified and characterized six insulin signalling pathway genes – InR, InR2, IRS1, PI3K1, PI3K2, and PDK – in Pardosa pseudoannulata. Real‐time quantitative polymerase chain reaction results were used to analyse the relative expression levels of the six genes in different developmental instars and tissues, and in response to starvation treatment. In addition, the function of the insulin receptor substrate (IRS1) gene was investigated using RNA interference technology, which found that IRS1 significantly influenced nutrient content, developmental duration, body weight, and gonad development.CONCLUSIONThis study revealed the roles of six key insulin signalling pathway genes in Pardosa pseudoannulata, and in particular the importance of the IRS1 gene in regulating growth and development in the spider. The results lay the foundation for further research on the internal regulation mechanisms of growth and development in Araneae species, and also provide a reference for the artificial breeding of spiders. © 2023 Society of Chemical Industry.

Publisher

Wiley

Subject

Insect Science,Agronomy and Crop Science,General Medicine

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