Division of Applied Biosciences, Graduate School of Agriculture, Kyoto University, Kyoto, Japan.
Division of Environmental Science and Technology, Graduate School of Agriculture, Kyoto University, Kyoto, Japan.
Pest Manag Sci. 2024 Oct;80(10):5465-5472. doi: 10.1002/ps.8275. Epub 2024 Jun 27.
The predatory flower bug Orius strigicollis serves as a valuable biocontrol agent against small arthropods; however, its effectiveness can vary, especially when population establishment fails due to low prey/pest densities. A promising approach to improve the efficacy of O. strigicollis as a biocontrol agent is through gene editing. However, as females lay their eggs in plant tissue, the conventional embryo injection approach is challenging in this species.
In this study, we aimed to develop an efficient and practical gene editing technique for O. strigicollis using direct parental CRISPR (DIPA-CRISPR). Female bugs at various postemergence stages received Cas9 ribonucleoprotein injections, with subsequent genotyping of their offspring (G) using PCR and a heteroduplex mobility assay. We targeted the kynurenine 3-monooxygenase gene (cinnabar), pivotal for insect ommochrome pigment biosynthesis. Through experimental optimization, we achieved a peak gene editing efficiency of 52%, i.e., 52% of G progeny carried gene-edited alleles when injecting 1 day postemergence. Notably, some gene-edited G adults exhibited a red-eye mosaic phenotype, in contrast to the black-eyed wild type. Crossing experiments confirmed the heritability of the introduced mutations in the subsequent generation (G), enabling the establishment of a cinnabar-knockout line with bright red eyes.
We demonstrate that our DIPA-CRISPR gene editing method tailored for O. strigicollis is efficient and practical. Our findings highlight the potency of DIPA-CRISPR as a tool for O. strigicollis genetic engineering and suggest broader applications for enhancing other biocontrol agents. © 2024 Society of Chemical Industry.
捕食性花蝽 Orius strigicollis 是一种有价值的防治小型节肢动物的生物防治剂;然而,其效果可能会有所不同,特别是当由于猎物/害虫密度低而导致种群建立失败时。提高 O. strigicollis 作为生物防治剂的功效的一种有前途的方法是通过基因编辑。然而,由于雌性将卵产在植物组织中,传统的胚胎注射方法在该物种中具有挑战性。
在这项研究中,我们旨在开发一种针对 Orius strigicollis 的高效实用的基因编辑技术,使用直接亲本 CRISPR(DIPA-CRISPR)。处于不同出芽后阶段的雌性虫子接受 Cas9 核糖核蛋白注射,随后对其后代(G)进行 PCR 和异源双链迁移分析进行基因分型。我们针对色氨酸 3-单加氧酶基因(朱砂)进行了靶向研究,该基因对昆虫 ommochrome 色素生物合成至关重要。通过实验优化,我们实现了 52%的峰值基因编辑效率,即当在出芽后 1 天注射时,52%的 G 后代携带基因编辑等位基因。值得注意的是,一些基因编辑的 G 成虫表现出红眼镶嵌表型,与黑眼野生型形成对比。杂交实验证实了在随后的(G)代中引入突变的遗传性,从而建立了具有鲜艳红眼的朱砂敲除系。
我们证明了我们针对 Orius strigicollis 定制的 DIPA-CRISPR 基因编辑方法高效实用。我们的研究结果强调了 DIPA-CRISPR 作为 Orius strigicollis 遗传工程工具的潜力,并表明了其在增强其他生物防治剂方面的更广泛应用。
