Articles
THE SWITCH TO FLOWERING: GENES INVOLVED IN FLORAL INDUCTION OF THE APPLE CULTIVAR ‘PINOVA’ AND THE ROLE OF THE FLOWERING GENE MdFT
Article number
839_96
Pages
701 – 705
Language
English
Abstract
Meristems in apple have to pass the vegetative and the reproductive phase change before they can produce flowers.
In the previous ten years several genes of apple were identified which are homologous/orthologous to flowering genes of Arabidopsis thaliana. In relation to results obtained in Arabidopsis, the apple genes MdCOL1, MdCOL2, MdFT, MdSOC1, AFL1, AFL2, MdMADS2, MdMADS5, MdTFL1-1 and MdTFL1-2 are potential candidates to be involved in the vegetative and/or reproductive phase change.
Gene transcript analyses were performed in leaves of juvenile apple seedlings from a Braeburn × Pisaxa progeny to evaluate the role of these genes in the vegetative phase change.
These analyses revealed an increase of MdFT, AFL1, AFL2 and MdTFL1 mRNA expression in leaves related to the ascending node number suggesting a potential function in the vegetative transition terminated between the 70th and 80th node.
Furthermore, we studied seasonal changes of gene transcription in adult apple tree meristems and we showed that activation of AFL1/2, MdMADS2, MdFT, MdSOC1 and suppression of MdTFL1-1/1-2 are involved in the reproductive phase change occurring at the end of May.
We also over-expressed MdFT, a homologue of the predicted florigen FT from A. thaliana, in order to determine the function of MdFT. Overexpression of MdFT in Arabidopsis accelerated flowering, whereas flowers were not detected in MdFT transgenic apple lines growing in vitro and for the first year in greenhouse.
In the previous ten years several genes of apple were identified which are homologous/orthologous to flowering genes of Arabidopsis thaliana. In relation to results obtained in Arabidopsis, the apple genes MdCOL1, MdCOL2, MdFT, MdSOC1, AFL1, AFL2, MdMADS2, MdMADS5, MdTFL1-1 and MdTFL1-2 are potential candidates to be involved in the vegetative and/or reproductive phase change.
Gene transcript analyses were performed in leaves of juvenile apple seedlings from a Braeburn × Pisaxa progeny to evaluate the role of these genes in the vegetative phase change.
These analyses revealed an increase of MdFT, AFL1, AFL2 and MdTFL1 mRNA expression in leaves related to the ascending node number suggesting a potential function in the vegetative transition terminated between the 70th and 80th node.
Furthermore, we studied seasonal changes of gene transcription in adult apple tree meristems and we showed that activation of AFL1/2, MdMADS2, MdFT, MdSOC1 and suppression of MdTFL1-1/1-2 are involved in the reproductive phase change occurring at the end of May.
We also over-expressed MdFT, a homologue of the predicted florigen FT from A. thaliana, in order to determine the function of MdFT. Overexpression of MdFT in Arabidopsis accelerated flowering, whereas flowers were not detected in MdFT transgenic apple lines growing in vitro and for the first year in greenhouse.
Authors
C. Hättasch, H. Flachowsky, M.-V. Hanke, S. Lehmann, A. Gau, D. Kapturska
Keywords
Malus domestica, MdCOL, AFL, MdTFL1, MdMADS
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