Leaf-to-Shoot Apex Movement of Symplastic Tracer is Restricted Coincident with Flowering in Arabidopsis

Leaf-to-Shoot Apex Movement of Symplastic Tracer is Restricted Coincident with Flowering in Arabidopsis

Classical experiments in plant physiology showed that leaves are the source of signals that control the development of flowers from shoot meristems. Additional physiological and genetic experiments have indicated some of the molecules (e.g., gibberellins, cytokinins, and sucrose) that promote flower...

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Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 99; no. 3; pp. 1713 - 1717
Main Authors: Gisel, Andreas, Hempel, Frederick D., Barella, Sandra, Zambryski, Patricia
Format: Journal Article
Language:English
Published: United States National Academy of Sciences 05-02-2002
National Acad Sciences
The National Academy of Sciences
Subjects:
Arabidopsis - genetics
Arabidopsis - physiology
Arabidopsis - radiation effects
Biological Sciences
Botany
Circadian Rhythm - physiology
Crosses, Genetic
Flowering
Flowers
Flowers & plants
Fluorescent Dyes
Leaves
Microscopy
Molecular biology
Molecules
Mutation
Photoperiod
Plant cells
Plant Leaves - physiology
Plant Shoots - physiology
Plant Stems - growth & development
Plant Stems - physiology
Plants
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Summary:Classical experiments in plant physiology showed that leaves are the source of signals that control the development of flowers from shoot meristems. Additional physiological and genetic experiments have indicated some of the molecules (e.g., gibberellins, cytokinins, and sucrose) that promote flowering in mustards including Arabidopsis. These small hydrophilic molecules are likely to move to the shoot apex symplastically via the phloem and/or via cell-to-cell movement through plasmodesmata. To analyze potential changes in the symplastic trafficking of small molecules during the induction of flowering in Arabidopsis, we measured changes in the flow of symplastic tracers from the leaf to the shoot apex. We previously found that the onset of flowering is coincident with an evident decrease in the leaf-to-shoot trafficking of symplastic tracer molecules; this decrease in trafficking is transitory and resumes when floral development is established. Here we provide detailed analyses of symplastic connectivity during floral induction by monitoring tracer movement under different photoperiodic induction conditions and in a number of genetic backgrounds with altered flowering times. In all cases, the correlation between flowering and the reduction of symplastic tracer movement holds true. The lack of tracer movement during the induction of flowering may represent a change in plasmodesmal selectivity at this time or that a period of reduced symplastic communication is associated with floral induction.
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Present address: Friedrich Miescher Institute, Postfach 2543, 4002 Basel, Switzerland.
Present address: Kantonsspital Basel, Department of Research, Hebelstrasse 20, 4031 Basel, Switzerland.
To whom reprint requests should be addressed. E-mail: zambrysk@nature.berkeley.edu.
Present address: Mendel Biotechnology, 21375 Cabot Boulevard, Hayward, CA 94545.
Contributed by Patricia Zambryski
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.251675698