CRISPR/Cas9 editing of transformer2 gene of the Oriental fruit Fly, Bactrocera dorsalis (Hendel) (Diptera: Tephritidae) leads to intersex phenotype

Abstract

The Oriental fruit fly, Bactrocera dorsalis is a serious, highly invasive pest of fruits affecting global trade. Areawide management of B. dorsalis by release of sterile males obtained through irradiation suffers from the disadvantage of somatic mutations. In this regard, insect pest management in the post genome editing era poised for producing precise mutations based on CRISPR/Cas for example precision guided sterile insect technique and gene drive. Development of these technologies depend on the genes in sex determination pathway and spermatogenesis in target species. In the sex determination pathway of B. dorsalis, transformer (tra & tra2) are involved in female specific splicing of double sex (dsx). CRISPR/Cas9 mediated loss-of-function of tra has been shown to influence sex determination while it is lacking in tra2. In the present study we have edited transformer2 gene through embryonic microinjection of CRISPR/Cas9 ribonucleprotein (Cas9+sgRNA) targeting the sixth exon. Among the emergent G0 individuals, two showed an intersex phenotype, with a male-specific dorsal bristles in the third tergite on the left side of the abdomen and a degenerate ovipositor. The third individual manifested an unique phenotype, with a complete absence of the male specific dorsal bristles but a complete degenerate ovipositor. Sequencing results revealed both addition and deletions in all the three intersexes. Additionally, molecular karyotyping of these individuals, through Maleness on Y (MoY) PCR revealed a XX karyotype for all of them. Hence, we have shown that editing of the transformer2 locus in B. dorsalis interferes with the normal sex determination.