FT Protein Movement Contributes to Long-Distance Signaling in Floral Induction of <i>Arabidopsis</i>

Laurent Corbesier; Coral Vincent; Seonghoe Jang; Fabio Fornara; Qingzhi Fan; Iain Searle; Antonis Giakountis; Sara Farrona; Lionel Gissot; Colin Turnbull; George Coupland

doi:10.1126/science.1141752

FT Protein Movement Contributes to Long-Distance Signaling in Floral Induction of <i>Arabidopsis</i>

Laurent Corbesier(Max Planck Society), Coral Vincent(Max Planck Society), Seonghoe Jang(Max Planck Society), Fabio Fornara(Max Planck Society), Qingzhi Fan(Max Planck Institute for Plant Breeding Research), Iain Searle(Max Planck Society), Antonis Giakountis(Max Planck Society), Sara Farrona(Max Planck Society), Lionel Gissot(Max Planck Society), Colin Turnbull(Max Planck Institute for Plant Breeding Research), George Coupland(Max Planck Society)

Science

April 19, 2007

10.1126/science.1141752

Cited by 2,255

Abstract

In plants, seasonal changes in day length are perceived in leaves, which initiate long-distance signaling that induces flowering at the shoot apex. The identity of the long-distance signal has yet to be determined. In Arabidopsis, activation of FLOWERING LOCUS T (FT) transcription in leaf vascular tissue (phloem) induces flowering. We found that FT messenger RNA is required only transiently in the leaf. In addition, FT fusion proteins expressed specifically in phloem cells move to the apex and move long distances between grafted plants. Finally, we provide evidence that FT does not activate an intermediate messenger in leaves. We conclude that FT protein acts as a long-distance signal that induces Arabidopsis flowering.

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