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Auxin, Self-Organisation, and the Colonial Nature of Plants

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Presentation on theme: "Auxin, Self-Organisation, and the Colonial Nature of Plants"— Presentation transcript:

1 Auxin, Self-Organisation, and the Colonial Nature of Plants
Ottoline Leyser  Current Biology  Volume 21, Issue 9, Pages R331-R337 (May 2011) DOI: /j.cub Copyright © 2011 Elsevier Ltd Terms and Conditions

2 Figure 1 Transport systems in the modular shoot.
Cells in the primary shoot apical meristem divide to produce a stem below it and leaves around its circumference. Secondary shoot apical meristems are established in the axils of leaves (axillary meristems) with the same developmental potential as the primary shoot apex, but they may enter a dormant state and never fulfil this potential. Signals modulating the growth and development of the shoot are transported in the transpiration stream in the xylem, driven by evaporation of water from the leaves pulling water up from the roots, bringing along dissolved nutrients and signals. Signals can move bi-directionally in the phloem, which transports fixed carbon in the form of sucrose from source tissues, such as mature photosynthetically active leaves, to sink tissues, such as the roots or the growing shoot tip. Current Biology  , R331-R337DOI: ( /j.cub ) Copyright © 2011 Elsevier Ltd Terms and Conditions

3 Figure 2 The polar auxin transport stream.
The chemical structure of indole-3-acetic acid, the most common natural auxin, is shown top right. Auxin synthesised in young expanding leaves is transported rootward in files of xylem parenchyma cells running parallel to the xylem vessels. Directionality for this transport is provided by the basal location of PIN family auxin efflux carriers. The inset shows GPF-tagged PIN1 protein basally localised in xylem parenchyma cell files (as indicated) imaged by confocal microscopy of hand sectioned Arabidopsis stems [64]. The spiral thickening of adjacent cell files is typical of differentiating xylem. Current Biology  , R331-R337DOI: ( /j.cub ) Copyright © 2011 Elsevier Ltd Terms and Conditions

4 Figure 3 Context-dependent action of strigolactone in bud inhibition.
Top row, solitary buds on isolated nodal stem segments: (A) Activation of untreated bud to produce a branch. (B) Inhibition of bud by apical auxin application. (C) No effect on bud of basal strigolactone application. (D) Super-inhibition of bud (red asterisk) by simultaneous application of basal strigolactone and apical auxin. Bottom row, stem segments with two buds: (E) Activation of both buds when untreated. (F) Activation of only one bud when treated with basal strigolactone. Current Biology  , R331-R337DOI: ( /j.cub ) Copyright © 2011 Elsevier Ltd Terms and Conditions

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