Agrobacterium-mediated transformation of cotyledons of mature seeds of multiple genotypes of sunflower (Helianthus annuus L.)

Abstract

Lack of a genotype-independent transformation protocol for sunflower is a major bottleneck in improving this important oilseed crop. An efficient Agrobacterium-mediated transformation protocol is described, which was adaptable across a broad range of sunflower genotypes. The improved transformation approach used cotyledons from mature seeds vertically split through the embryo axis. The LBA 4404 Agrobacterium strain was used, which carried pCAMBIA 2301 plasmid containing UidA as the reporter gene and nptII as the selectable marker for transformants on kanamycin. Bacterial titer, cotyledon type, acetosyringone concentration and vacuum application enhanced the transformation efficiency. Wounding, enzyme pretreatment and sonication significantly reduced the transformation frequency. Putative transgenic shoots were obtained through both axillary proliferation and adventitious shoot regeneration. Following two and three cycles of selection on kanamycin for axillary and adventitious shoots, respectively, putative transformed shoots were obtained at an average frequency of 3.0 %. Reporter gene histochemical assay and molecular characterization of primary and T1 transgenic plants revealed stable transgene integration, expression and monogenic inheritance. The standardized procedure was tested on 28 genotypes comprising sets of inbred, maintainer, restorer and hybrid lines. Transformation was successful in all genotypes albeit with variable frequency in all except the hybrid lines wherein it was stable around 4.0 %. The procedure opens possibilities of directly improving any commercial genotypes of sunflower.