CRISPR/Cas9-mediated Nap knockout affects female reproduction and egg shape in Bombyx mori

IF 2.3 2区 农林科学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Insect Molecular Biology Pub Date : 2024-07-06 DOI:10.1111/imb.12937
Xingyu Liu, Liying Zhang, Ning Zhang, Kai Li, Peter B. Mater, Lin He
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Abstract

Insect reproductive capacity can affect effective pest control and infertility studies and has become an important focus in recent molecular genetic research. Nucleosome assembly protein (Nap) is highly conserved across multiple species and is involved in forming the sperm nucleus in many species. We used clustered regularly interspaced palindromic repeats/Cas9 technology to knockout BmNap in Bombyx mori and observed that the mutations caused female infertility, whereas male fertility was not affected. BmNap mutants grew and mated normally; however, female mutants laid smaller eggs that could not be fertilised and did not hatch. In addition, female sterility produced by the mutation could be inherited stably via male mutants; therefore, Nap could be used as a potential target for lepidopteran pest control through population regulation. In the current study, we elucidated a new function of BmNap, increased the understanding of the oogenesis regulation network in Lepidoptera and promoted the development of insect sterility technologies.

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CRISPR/Cas9介导的Nap基因敲除会影响森雌公鸡的雌性繁殖和卵形。
昆虫的繁殖能力会影响害虫的有效控制和不育研究,已成为近年来分子遗传研究的一个重要焦点。核小体组装蛋白(Nap)在多个物种中高度保守,在许多物种中参与精子核的形成。我们利用簇状规则间隔回文重复序列/Cas9技术敲除了桑蚕的BmNap,观察到突变会导致雌性不育,而雄性的生育能力不受影响。BmNap突变体生长和交配正常;但是,雌性突变体产下的卵较小,无法受精,也不能孵化。此外,该突变产生的雌性不育可通过雄性突变体稳定遗传;因此,Nap可通过种群调控作为鳞翅目害虫控制的潜在目标。本研究阐明了BmNap的新功能,加深了对鳞翅目昆虫卵发生调控网络的认识,促进了昆虫不育技术的发展。
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来源期刊
Insect Molecular Biology
Insect Molecular Biology 生物-昆虫学
CiteScore
4.80
自引率
3.80%
发文量
68
审稿时长
6-12 weeks
期刊介绍: Insect Molecular Biology has been dedicated to providing researchers with the opportunity to publish high quality original research on topics broadly related to insect molecular biology since 1992. IMB is particularly interested in publishing research in insect genomics/genes and proteomics/proteins. This includes research related to: • insect gene structure • control of gene expression • localisation and function/activity of proteins • interactions of proteins and ligands/substrates • effect of mutations on gene/protein function • evolution of insect genes/genomes, especially where principles relevant to insects in general are established • molecular population genetics where data are used to identify genes (or regions of genomes) involved in specific adaptations • gene mapping using molecular tools • molecular interactions of insects with microorganisms including Wolbachia, symbionts and viruses or other pathogens transmitted by insects Papers can include large data sets e.g.from micro-array or proteomic experiments or analyses of genome sequences done in silico (subject to the data being placed in the context of hypothesis testing).
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