A Reliable Regeneration Method in Genome-Editable Bell Pepper ‘Dempsey’

Abstract

A reliable regeneration technique is critical for the improvement of pepper traits in the genome editing era. Recently, we reported that peppers were successfully and specifically edited using CRISPR tools, CRISPR/Cas9 and CRISPR/Cas12a (LbCpf1). Although genome-editing tools can be applied to modify peppers at the cellular level, feasible pepper regeneration techniques have not been developed. Therefore, we studied a pepper regeneration protocol for Capsicum annuum L. ‘Dempsey’, a bell pepper species that has been proven to be genome-editable. Three explant types were used in this study, including the first leaves, cotyledons and hypocotyls of pepper seedlings. The shoot buds of the tested explants were produced using 8 mg/L 6-benzylaminopurine (BAP)- and 6 mg/L indole-3-acetic acid (IAA)-containing shoot induction medium (SIM). The first leaves of the ‘Dempsey’ seedlings showed an average shooting rate of 69.8%, whereas the hypocotyls and cotyledons had approximately 25.5% and 19.5% shooting rates, respectively. The regenerated ‘Dempsey’ plants exhibited no alterations in fruit and fertile seed phenotypes. Furthermore, the parent ‘Dempsey’ and progenies of the regenerants were cytogenetically stable with the same chromosome numbers (2n = 24). Therefore, this regeneration protocol enables the precise molecular breeding of ‘Dempsey’ peppers when coupled with CRISPR tools.