The Fast-track breeding approach can be improved by heat-induced expression of the FLOWERING LOCUS T genes from poplar (Populus trichocarpa) in apple (Malus × domestica Borkh.)

Abstract

The Fast-track breeding approach in apple is based on the utilization of the BpMADS4 gene from Betula pendula. However, this approach has several disadvantages which could be solved using other flowering inducing genes and inducible promoters. The FLOWERING LOCUS T genes (PtFT1 and PtFT2) from poplar (Populus trichocarpa) driven by the heat-inducible Gmhsp 17.5-E (HSP)-promoter from soybean (Glycine max) were transferred into apple (Malus × domestica Borkh.) cv. ‘Pinova’ in order to induce flowering. Seven transgenic apple lines were obtained. All transgenic apple lines micrografted onto ‘Golden Delicious’ seedlings used as rootstocks were transferred to the greenhouse. Six out of seven transgenic lines developed flowers after a heat treatment at 42 °C for 1 h daily over a period of 28 days. The transgenic line T836 failed to flower. Flower morphology and pollen vitality of transgenic lines appeared normal. Transgenic plants were successfully used for hybridizations. Pollen from Malus ×robusta 5 applied to flowers of transgenic plants resulted in fruit formation. Heat induced PtFT1, respectively PtFT2 over-expressing rootstocks did not cause flowering in micrografted non-transgenic ‘Pinova’ scions. The mRNA of the PtFT genes was transported from transgenic rootstocks to non-transgenic scions only in one case. As a balance between plant development and flowering is important for the production of early flowering plants usable for a fast-track breeding program the new approach based on heat-induced flowering could be a refinement of the fast breeding program using the possibility of turning-on-turning-off flowering in physiological well developed plants.