Protocol for efficient ginseng transformation

Abstract

Panax ginseng is a major medicinal crop with pharmaceutical efficacy derived from ginsenoside metabolites. Despite its genome information, the inefficiency of ginseng transformation hinders the study of the molecular mechanism of ginseng plant metabolism. Thus, this protocol aimed to develop an easy and efficient system for ginseng transformation. We established a transformation system using ginseng callus cultured in a liquid medium, which has a higher rate compared with cotyledon explant. In addition, Agrobacterium tumefaciens has been used for plant transformation. Compared with the LBA4404 strain, C58C1 was inappropriate for ginseng transformation using ginseng callus. We induced and maintained calli in liquid medium and cut them into small pieces before infection. After infection, we selected calli that survived from the selection media until identification of newly growing cells. In β-glucuronidase (GUS) assay, the expression of the GUS gene was observed in cells that were newly generated from explants. We treated calli with 0.05 M of MgSO4 before infection. After MgSO4 pre-treatment, the transformation efficiency of growing cells around infected callus was increased than non-treated control. Moreover, we constructed and introduced a visible reporter RUBY system to easily identify transformed cells. Using this system, we could identify the cells by a red color with naked eyes. Based on our transformation protocol, the success rate has increased to 77.27% in surviving lines during selection culture. This stable ginseng transformation could facilitate the overexpression and knockout of ginseng lines for functional or synthetic biological studies. We re-designed the ginseng transformation protocol using ginseng calli for explant material, and MgSO4 pretreatment was conducted before Agrobacterium infection. RUBY reporter was successfully introduced in ginseng.