Floral meristem identity genes are expressed during tendril development in grapevine
- Calonje, M. 1
- Cubas, P. 3
- Martínez-Zapater, J.M. 23
- Carmona, M.J. 1
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1
Universidad Politécnica de Madrid
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2
Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria
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Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria
Madrid, España
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3
Centro Nacional de Biotecnología
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ISSN: 0032-0889
Année de publication: 2004
Volumen: 135
Número: 3
Pages: 1491-1501
Type: Article
beta Ver similares en nube de resultadosD'autres publications dans: Plant Physiology
Résumé
To study the early steps of flower initiation and development in grapevine (Vitis vinifera), we have isolated two MADS-box genes, VFUL-L and VAP1, the putative FUL-like and AP1 grapevine orthologs, and analyzed their expression patterns during vegetative and reproductive development. Both genes are expressed in lateral meristems that, in grapevine, can give rise to either inflorescences or tendrils. They are also coexpressed in inflorescence and flower meristems. During flower development, VFUL-L transcripts are restricted to the central part of young flower meristems and, later, to the prospective carpel-forming region, which is consistent with a role of this gene in floral transition and carpel and fruit development. Expression pattern of VAP1 suggests that it may play a role in flowering transition and flower development. However, its lack of expression in sepal primordia, does not support its role as an A-function gene in grapevine. Neither VFUL-L nor VAP1 expression was detected in vegetative organs such as leaves or roots. In contrast, they are expressed throughout tendril development. Transcription of both genes in tendrils of very young plants that have not undergone flowering transition indicates that this expression is independent of the flowering process. These unique expression patterns of genes typically involved in reproductive development have implications on our understanding of flower induction and initiation in grapevine, on the origin of grapevine tendrils and on the functional roles of AP1-and FUL-like genes in plant development. These results also provide molecular support to the hypothesis that Vitis tendrils are modified reproductive organs adapted to climb.