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ABSTRACT: Understanding the complete picture of floral transition is still impaired by the fact that physiological studies mainly concern plant species whose genetics is poorly known, and vice versa. Arabidopsis thaliana has been successfully used to unravel signalling pathways by genetic and molecular approaches, but analyses are still required to determine the physiological signals involved in the control of floral transition. In this work, the putative role of cytokinins was investigated using vegetative plants of Arabidopsis (Columbia) induced to flower synchronously by a single 22 h long day. Cytokinins were analysed in leaf extracts, leaf phloem exudate and in the shoot apical meristem at different times during floral transition. It was found that, in both the leaf tissues and leaf exudate, isopentenyladenine forms of cytokinins increased from 16 h after the start of the long day. At 30 h, the shoot apical meristem of induced plants contained more isopentenyladenine and zeatin than vegetative controls. These cytokinin increases correlate well with the early events of floral transition.
Journal of Experimental Botany 12/2003; 54(392):2511-7. · 5.36 Impact Factor
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ABSTRACT: In plants of Sinapis alba induced to flower by exposure to a single long day (LD), previous work demonstrated that the movement of a shoot-to-root signal early during the photoextension period of the LD was essential for flowering. Interrupting this movement by bark ringing (girdling) of the stem inhibited the floral response of plants to the LD. In the present work we show that (a) the girdling treatment decreases the soluble sugar level in the roots of induced plants, and (b) the inhibitory effect on the floral response caused by girdling can be completely overcome by supplying the roots with sucrose directly at appropriate times. Thus, we demonstrate that sucrose moving in the phloem is the shoot-to-root signal essential for flowering. We have also found that one of the major effects of the extra-sucrose on the roots is to stimulate the root-to-shoot movement of [9R]Z, the predominant cytokinin of the xylem sap in Sinapis. The importance of this upward movement of [9R]Z for flowering is indicated by the observation that (a) the floral response to the LD is inhibited by growing plants in an atmosphere saturated with water (impairing upward movement of xylem sap) during the LD itself, and (b) the inhibitory effect on the floral response caused by girdling, which markedly reduces [9R]Z export from roots, is relieved by direct application of BA, a cytokinin, to the apex. Other possible effects of the shoot-derived sucrose on roots in relation to flowering are also discussed. Our results show that a shoot-to-root-to-shoot physiological loop is essential for flowering in intact Sinapis plants.
Physiologia Plantarum 12/2001; 109(3):343 - 350. · 3.11 Impact Factor
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ABSTRACT: Sinapis alba L. was induced to flower by either a long day or a displaced short day. Following collection of leaf (phloem) and root (xylem) exudates from induced and non-induced plants, polyamines in the exudates were extracted, separated and analyzed quantitatively. The titers of free and conjugated putrescine the major polyamine fractions in all samples, increased early and markedly in leaf exudates during the floral transition, coinciding closely with movement of the floral stimulus out of the induced leaf. By contrast, putrescine titer in the root exudate did not increase. A spray of difluoromethylornithine (DFMO), an irreversible inhibitor of the putrescine-biosynthetic enzyme ornithine decarboxylase, at hour 8 of the long day considerably reduced the titer of free and conjugated putrescine in leaf exudates, and at the same time, markedly decreased the flowering response of induced plants. This effect of DFMO on flowering was substantially reversed by a simultaneous application of putrescine to the roots. DFMO sprayed on induced plants also suppressed early activation of indices of both mitosis and DNA synthesis in the shoot apical meristem. These results support the view that the extra putrescine synthesized in induced leaves is a necessary component of the floral stimulus in Sinapis.
Physiologia Plantarum 12/1995; 96(1):59 - 65. · 3.11 Impact Factor
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ABSTRACT: Sinapis alba L., a long-day plant, has been induced to flower either by a single 22-h-long photoperiod or by an 8-h short photoperiod displaced by 10 h in a 24 h cycle. The ehtylenediametetraacetate method previously used for leaf exudation was modified to collect phloem sap at the apical part of the shoot. Carbohydrates in the phloem sap have been analysed comparatively in vegetative and induced plants, using high-performance liquid chromatography and refractometry. Sucrose was the major sugar detected. A dramatic increase of its flux in the apical sap occurred early and transiently during the floral transition in plants induced by both long days and displaced short days. These results indicate a message-like role for sucrose since they fit nicely with previous observations indicating that an early event in the floral transition in S. alba is the accumulation of sucrose in the meristem.
Planta 04/1993; 190(1):71-74. · 3.00 Impact Factor
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ABSTRACT: Sinapis alba is a long-day (LD) plant that can be induced to flower by a single LD. A number of changes normally occurring in the meristem of plants subjected to the LD can be produced in short day by a single application of a cytokinin to the apical bud. However, flower buds are not produced indicating that evocation by the cytokinin is only partial. In this work, the cytokinin content of root exudate, obtained under vacuum, and of leaf exudate, obtained by the EDTA-method, has been analyzed comparatively in vegetative and induced plants, using reversed-phase HPLC coupled to the Amaranthus bioassay. The results show that, as early as 16 hours after the start of the LD, there is an increase of cytokinin activity in both the root and leaf exudates of induced plants. These observations fit nicely with previous results obtained on Sinapis, and they indicate that cytokinins are part of the floral stimulus in this species.
Plant physiology 05/1988; 86(4):1095-8. · 6.53 Impact Factor
