Ph. D. Melanie BENARD-GELLON
Somatic embryogenesis and genetic transformation of different varieties of grapevine rootstocks to induce resistance to Grapevine fanleaf virus.
Defended in November 2011
Under the direction of Bernard WALTER
Abstract
In this study, we initially adapted the protocol of primary somatic embryogenesis in different varieties of hybrid rootstocks (3309C, 110R, Fercal, 41B and SO4) building on the experience gained in the laboratory on Vitis vinifera cv Chardonnay. The results show that the genotype, the explant type (stamen, flower or node), the type and the dose of auxin used in the induction medium (2,4-D or 2,4,5-T) influence the efficiency of somatic embryogenesis. Indeed, for the 3309C, the use of 2,4,5-T in the induction medium showed a higher efficiency from embryogenic nodes compared to that obtained from stamens. However, the better efficiency was obtained from the flowers of this variety on an induction medium containing 2,4-D. In addition, a protocol used in the laboratory for secondary somatic embryogenesis allowed us to obtain embryogenic masses as well as secondary somatic embryos from these rootstocks. The protocol conversion of embryos into plants, in the presence of 4.5 µM of cytokinin (BAP), was effective for the 110R and 41B. In a second step, we co-cultivated embryogenic material obtained for four of these genotypes (110R, 3309C, Fercal and 41B), with Agrobacterium tumefaciens containing three genetic constructs: (i) a copy of a partial sequence (1020 bp) of the coat protein gene of the virus in the sense orientation, (ii) a short part-way and antisense (280 bp) of the same sequence forming a hairpin structure (hairpin RNA = hpRNA) (iii) one amiRNA targeting a viral sequence. The npt1 bacterial gene encoding neomycin phosphotransferase and conferring resistance to the antibiotic kanamycin, was used as the selection gene. The selection conditions to kanamycin have required experimental adaptations such as adjusting the concentration of antibiotic because the selection with 75 mg/L of kanamycin was not enough drastic in most of our experiments of co-culture. The results of molecular analysis by PCR showed probable amplification of fragments of interest (CPGFLV and amiRNA-71) in samples of 11OR and 41B resistant to kanamycin. However, additional molecular analysis by AL-PCR did not inform us about a possible integration of the transgene amiRNA-71 in embryogenic masses of 41B.