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Phyllotaxis : biological mechanisms. Seth Donoughe. Phyllotaxis. A few simple assumptions about leaf growth --> Mathematical models --> Patterns observed in plants. “First available space”. Mitchison (1977) Based on contact-circles and an expanding apex. Diffusion of inhibitor
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Phyllotaxis: biological mechanisms Seth Donoughe
Phyllotaxis A few simple assumptions about leaf growth --> Mathematical models --> Patterns observed in plants
“First available space” • Mitchison (1977) • Based on contact-circles and an expanding apex. • Diffusion of inhibitor • Transport of inhibitor • Depletion or competition for a compound
“Largest available place” • Douady and Couder (1992) • Maximize light gathering • Never overlap
“First available place” or “largest available space? • Diffusion of an inhibitor? Active transport? A more complicated mechanism?
Plant hormones • There are several major classes • Influence virtually all aspects of plant life cycle • One important class: • Auxins
Auxin • Creates top - bottom (apical - basal) polarity • Mediates phototropism • Induces vascular tissue growth • Produced in the shoot apical meristem and is transported downward • Influx and efflux carriers accomplish this.
Auxin controls the production of leaf primordia at the shoot apical meristem, and is therefore likely involved in phyllotaxis
A series of proteins is needed to direct successful leaf growth Involving at least an auxin-dependent transcription factor, a negative regulator of auxin response, and the proteins for auxin transport.
PIN1 and a uniform distribution of auxin combine to create the phyllotactic pattern • Auxin begins primordium formation • PIN1 preferentially directs auxin towards the growing leaf. • The leaf becomes an “auxin-sink” • As a result there is a minimum distance to the next primordium • Positive feedback and lateral inhibition
Photo credit and references • Reinhart, et al. (2003). Regulation of phyllotaxis by polar auxin transport. • Douady and Couder. (1991) • Mitchison. (1977) • http://www-bioc.rice.edu/~bartel/projects/iaa28forweb.gif • http://upload.wikimedia.org/wikipedia/commons/2/2c/Auxin.jpg • http://images.the-scientist.com/content/images/articles/53126/69-1.jpg • http://www.uic.edu/classes/bios/bios100/labs/meristem.jpg