Pollen-stigma adhesion in Arabidopsis: a species-specific interaction mediated by lipophilic molecules in the pollen exine

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JOURNAL ARTICLES

Pollen-stigma adhesion in Arabidopsis: a species-specific interaction mediated by lipophilic molecules in the pollen exine

GM Zinkl, BI Zwiebel, DG Grier and D Preuss
Department of Molecular Genetics and Cell Biology, The James Franck Institute, The University of Chicago, Chicago, Illinois 60637, USA.

To investigate the nature and role of cell adhesion in plants, we analyzed the initial step of pollination in Arabidopsis: the binding of pollen grains to female stigma cells. Here we show this interaction occurs within seconds of pollination. Because it takes place prior to pollen hydration, it also requires adhesion molecules that can act in a virtually dry environment. We developed assays that monitored adhesion of populations of pollen grains and individual cells. Adhesion between pollen and stigma cells is highly selective - Arabidopsis pollen binds with high affinity to Arabidopsis stigmas, while pollen from other species fails to adhere. Initial binding is independent of the extracellular pollen coat (tryphine), indicating that adhesion molecules reside elsewhere on the pollen surface, most likely within the exine walls. Immediately after pollination, the stigma surface becomes altered at the interface, acquiring a pattern that interlocks with the exine; this pattern is evident only with pollen from Arabidopsis and its close relatives. Purified exine fragments bind to stigma cells, and biochemical analyses indicate that this specific, rapid and anhydrous adhesion event is mediated by lipophilic interactions.

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				M. Schein, Z. Yang, T. Mitchell-Olds, and K. J. Schmid Rapid Evolution of a Pollen-Specific Oleosin-Like Gene Family from Arabidopsis thaliana and Closely Related Species Mol. Biol. Evol., April 1, 2004; 21(4): 659 - 669. [Abstract] [Full Text] [PDF]

				E. M. Lord Adhesion and guidance in compatible pollination J. Exp. Bot., January 1, 2003; 54(380): 47 - 54. [Abstract] [Full Text] [PDF]

				D. Preuss Sexual Signaling on a Cellular Level: Lessons from Plant Reproduction Mol. Biol. Cell, June 1, 2002; 13(6): 1803 - 1805. [Full Text] [PDF]

				D. M. Paxson-Sowders, C. H. Dodrill, H. A. Owen, and C. A. Makaroff DEX1, a Novel Plant Protein, Is Required for Exine Pattern Formation during Pollen Development in Arabidopsis Plant Physiology, December 1, 2001; 127(4): 1739 - 1749. [Abstract] [Full Text] [PDF]

				K. Wellesen, F. Durst, F. Pinot, I. Benveniste, K. Nettesheim, E. Wisman, S. Steiner-Lange, H. Saedler, and A. Yephremov Functional analysis of the LACERATA gene of Arabidopsis provides evidence for different roles of fatty acid omega -hydroxylation in development PNAS, August 1, 2001; (2001) 171285998. [Abstract] [Full Text] [PDF]

				C. Mariani and M. Wolters-Arts Complex Waxes PLANT CELL, October 1, 2000; 12(10): 1795 - 1798. [Full Text]

				A. Fiebig, J. A. Mayfield, N. L. Miley, S. Chau, R. L. Fischer, and D. Preuss Alterations in CER6, a Gene Identical to CUT1, Differentially Affect Long-Chain Lipid Content on the Surface of Pollen and Stems PLANT CELL, October 1, 2000; 12(10): 2001 - 2008. [Abstract] [Full Text]

				J.-C. Mollet, S.-Y. Park, E. A. Nothnagel, and E. M. Lord A Lily Stylar Pectin Is Necessary for Pollen Tube Adhesion to an in Vitro Stylar Matrix PLANT CELL, September 1, 2000; 12(9): 1737 - 1750. [Abstract] [Full Text]