Auxin and self-organization at the shoot apical meristem

Auxin and self-organization at the shoot apical meristem

Plants continuously generate new tissues and organs throughout their life cycle, due to the activity of populations of specialized tissues containing stem cells called meristems. The shoot apical meristem (SAM) generates all the aboveground organs of the plant, including leaves and flowers, and play...

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Veröffentlicht in:Journal of experimental botany. - 1985. - 64(2013), 9 vom: 01. Juni, Seite 2579-92
1. Verfasser: Sassi, Massimiliano (VerfasserIn)
Weitere Verfasser: Vernoux, Teva
Format: Online-Aufsatz
Sprache:English
Veröffentlicht: 2013
Zugriff auf das übergeordnete Werk:Journal of experimental botany
Schlagworte:Journal Article Research Support, Non-U.S. Gov't Review auxin auxin signalling mechanical forces phyllotaxis polar auxin transport shoot apical meristem. Indoleacetic Acids mehr... Plant Growth Regulators Plant Proteins
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520 |a Plants continuously generate new tissues and organs throughout their life cycle, due to the activity of populations of specialized tissues containing stem cells called meristems. The shoot apical meristem (SAM) generates all the aboveground organs of the plant, including leaves and flowers, and plays a key role in plant survival and reproduction. Organ production at the SAM occurs following precise spatio-temporal patterns known as phyllotaxis. Because of the regularity of these patterns, phyllotaxis has been the subject of investigations from biologists, physicists, and mathematicians for several centuries. Both experimental and theoretical works have led to the idea that phyllotaxis results from a self-organizing process in the meristem via long-distance interactions between organs. In recent years, the phytohormone auxin has emerged not only as the central regulator of organogenesis at the SAM, but also as a major determinant of the self-organizing properties of phyllotaxis. Here, we discuss both the experimental and theoretical evidence for the implication of auxin in the control of organogenesis and self-organization of the SAM. We highlight how several layers of control acting at different scales contribute together to the function of the auxin signal in SAM dynamics. We also indicate a role for mechanical forces in the development of the SAM, supported by recent interdisciplinary studies 
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650 4 |a polar auxin transport 
650 4 |a shoot apical meristem. 
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650 7 |a Plant Growth Regulators  |2 NLM 
650 7 |a Plant Proteins  |2 NLM 
700 1 |a Vernoux, Teva  |e verfasserin  |4 aut 
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