Transformation parameters enhancing T-DNA expression in kenaf ( Hibiscus cannabinus)

Abstract

Kenaf( Hibiscus cannabinus )is a fast growing annual with tremendous potential as a source of fiber for ropes, textiles and paper. Kenaf is an environmentally friendly crop; however, commercial production of kenaf is hindered by weed competition at the seedling stage. Herbicide resistant kenaf cultivars would reduce seedling weed competion and make growing kenaf more profitable. Factors that are important in establishing a transformation system for kenaf were examined. The influence of Agrobacterium strain, temperature, host tissue wounding, acetosyringone, v irG/virE genes and host cell division on T-DNA expression in the kenaf shoot apex were investigated. Three Agrobacterium strains were tested, and A. tumefaciens LBA4404 significantly (α=0.05) yielded a high number of shoots surviving on selection medium; no shoots survived with EHA101S or Z707S. There was no significant difference (α=0.05) in transient T-DNA expression between 28 °C and 25 °C; however, shoots did not survive 16 °C or 19 °C co-cultivation temperatures. Shoot apex survival was increased significantly (α=0.05) when virulence genes and a cytokinin, TDZ, were combined. Sonicated shoots showed an increase in transient expression and shoot survival. Optimal conditions for shoot apex T-DNA transfer and expression were sonication for 5 s, co-cultivation with LBA4404 containing virG/virE at room temperature, and 200 μmol/L acetosyringone.