Direct Parental (DIPA) CRISPR in the jewel wasp, <i>Nasonia vitripennis</i>

The production of overwintering eggs is a critical adaptation for winter survival among many insects. Melanization contributes to eggshell pigmentation and hardening, consequently enhancing resistance to environmental stress. The complex life cycle of the pea aphid (Acyrthosiphon pisum), a model hemipteran insect with remarkable reproductive capacity, involves cyclical parthenogenesis. It enables the production of black overwintering eggs that undergo obligate diapause to survive under unfavorable conditions. Laccase2 (Lac2) is essential for cuticle sclerotization and pigmentation in other insects. We hypothesized that Lac2 plays a critical role in aphid eggshell pigmentation and survival during diapause. To test the hypothesis, we used CRISPR/Cas9 ribonucleoprotein microinjections and a novel Direct Parental CRISPR (DIPA-CRISPR) method to knockout Lac2. In Lac2 knockout (KO) crispants (G0), pigment-less eggs correlated with induced indel rates. Additionally, eggshell pigmentation was completely lost in homozygous Lac2 knockouts, leading to embryonic lethality. Observation of late-stage embryos in KO diapause eggs suggested that lethality occurred during late embryogenesis or hatching. Furthermore, eggshell stiffness was significantly reduced in Lac2 KOs, highlighting the role of this gene in eggshell hardening. Moreover, fungal growth was observed in KO eggs. These findings reveal the essential roles of Lac2 in eggshell pigmentation, hardening, late embryonic development, hatching, and fungal protection, which are critical for pea aphid survival during overwintering diapause. This study also advances CRISPR/Cas9-mediated genome editing in pea aphids by addressing the challenges associated with their unique biology, including complex life cycles, obligatory diapause, bacterial endosymbiosis, inbreeding depression, and high nuclease activity. Our optimized protocol achieved efficient targeted mutagenesis and germline transmission, thereby generating stable KO lines. Additionally, we successfully applied DIPA-CRISPR to aphids by inducing mutations via adult oviparous female injections in fertilized eggs. These robust genome-editing protocols will facilitate functional studies in aphids, a key model for research on evolution, ecology, development, and agriculture.

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Hymenopteran insects as model lineages for the study of brain basis related to the behavioral evolution.

KOHNO

2024

Hikaku seiri seikagaku(Comparative Physiology and Biochemistry)

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Direct Parental (DIPA) CRISPR in the jewel wasp, Nasonia vitripennis

Cited by 3 publications

References 40 publications

The powers and perils of bug editing

The powers and perils of bug editing

Refined CRISPR/Cas9 genome editing in pea aphids uncovers the essential roles ofLaccase2in overwintering egg adaptation

Hymenopteran insects as model lineages for the study of brain basis related to the behavioral evolution.

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