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First published online 13 May 2003
doi: 10.1242/jcs.00468
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Research Article |
Institute of Cell and Molecular Biology, University of Edinburgh, Mayfield Road, Edinburgh EH9 3JU, UK
* Author for correspondence (e-mail: richard.parton{at}ed.ac.uk)
Accepted 10 March 2003
The growing pollen tube provides an excellent single cell model system in
which to study the mechanisms determining growth regulation, polarity and
periodic behaviour. Previously, using FM4-64, we identified periodic movements
within the apical vesicle accumulation that were related to the period of
oscillatory growth. This suggested a more complex interdependence between
membrane traffic, apical extension and periodicity than previously thought. To
investigate this a comparison was made between normally growing and
Brefeldin-A-treated, non-growing, tubes. Brefeldin-A treatment established an
intriguing, stable yet dynamic system of membrane aggregations in the pollen
tube tip that exhibited regular movements of material with a 5-7 second period
compared with the normal 
30 second periodicity observed in growing tubes.
Heat treatment was found to reduce period length in both cases. After BFA
treatment membrane was demonstrated to flow from the extreme pollen tube apex
back through a distinct subapical Brefeldin-A-induced membrane accumulation.
The effects of Brefeldin-A on the distribution of ER- and Golgi-targeted
fluorescent proteins revealed that ER did not contribute directly to the
system of membrane aggregations while only certain compartments of the Golgi
might be involved. The involvement of membrane derived from the apical vesicle
accumulation was strongly implicated. Calcium measurements revealed that
Brefeldin-A abolished the typical tip-focused calcium gradient associated with
growth and there were no obvious periodic fluctuations in apical calcium
associated with the continued periodic Brefeldin-A membrane aggregation
associated movements. Our experiments reveal an underlying periodicity in the
pollen tube that is independent of secretion, apical extension and the
oscillating tip-focused calcium gradient normally associated with growth, but
requires an active actin cytoskeleton.
Key words: Oscillating growth, Pollen tube, Brefeldin A, Membrane trafficking
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