phyllotaxis : biological mechanisms
DESCRIPTION
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 - PowerPoint PPT PresentationTRANSCRIPT
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
PIN1 is an auxin efflux carrier
PIN1 is an auxin efflux carrier
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
Contact-circles supported
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