Ectopic expression of the Petunia MADS box gene UNSHAVEN accelerates flowering and confers leaf-like characteristics to floral organs in a dominant-negative manner

S.I.T. Ferrario, J. Busscher-Lange, J. Franken, T. Gerts, M. Vandenbussche, G.C. Angenent, R.G.H. Immink

    Research output: Contribution to journalArticleAcademicpeer-review

    69 Citations (Scopus)

    Abstract

    Several genes belonging to the MADS box transcription factor family have been shown to be involved in the transition from vegetative to reproductive growth. The Petunia hybrida MADS box gene UNSHAVEN (UNS) shares sequence similarity with the Arabidopsis thaliana flowering gene SUPPRESSOR OF OVEREXPRESSION OF CONSTANS1, is expressed in vegetative tissues, and is downregulated upon floral initiation and the formation of floral meristems. To understand the role of UNS in the flowering process, knockout mutants were identified and UNS was expressed ectopically in petunia and Arabidopsis. No phenotype was observed in petunia plants in which UNS was disrupted by transposon insertion, indicating that its function is redundant. Constitutive expression of UNS leads to an acceleration of flowering and to the unshaven floral phenotype, which is characterized by ectopic trichome formation on floral organs and conversion of petals into organs with leaf-like features. The same floral phenotype, accompanied by a delay in flowering, was obtained when a truncated version of UNS, lacking the MADS box domain, was introduced. We demonstrated that the truncated protein is not translocated to the nucleus. Using the overexpression approach with both the full-length and the nonfunctional truncated UNS protein, we could distinguish between phenotypic alterations because of a dominant-negative action of the protein and because of its native function in promoting floral transition
    Original languageEnglish
    Pages (from-to)1490-1505
    JournalThe Plant Cell
    Volume16
    DOIs
    Publication statusPublished - 2004

    Keywords

    • serum response factor
    • transcription factor family
    • arabidopsis-thaliana
    • nuclear-localization
    • locus-c
    • molecular characterization
    • reproductive development
    • domain protein
    • sinapis-alba
    • vernalization

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