Expression of CoQ10-producing ddsA transgene by efficient Agrobacterium -mediated transformation in Panicum meyerianum

Panicum meyerianum Nees is a wild relative of Panicum maximum Jacq. (guinea grass), which is an important warm-season forage grass and biomass crop. We investigated the conditions that maximized the transformation efficiency of P . meyerianum by Agrobacterium infection by monitoring the expression of the β-glucuronidase (GUS) gene. The highest activities of GUS in calli were achieved by the co-cultivation of plants with Agrobacterium at 28°C for 6 days. We transferred the ddsA gene, which encodes decaprenyl diphosphate synthase and is required for coenzyme Q10 (CoQ10) synthesis, into P . meyerianum by using our optimized co-cultivation procedure for transformation. We confirmed by PCR and DNA gel blot hybridization that all hygromycin-resistant plants retained stable insertion of the hpt and ddsA genes. We also demonstrated strong expression of S14:DdsA protein in the leaves of transgenic P . meyerianum. Furthermore, we showed that transgenic P . meyerianum produced CoQ10 at levels 11–20 times higher than that of non-transformants. By comparison, the CoQ9 level in transgenic plants was dramatically reduced. This is the first report of efficient Agrobacterium -mediated transfer of a foreign gene into the warm-season grass P . meyerianum .