Expression and Inhibition of Aquaporins in Germinating Arabidopsis Seeds

doi:10.1093/pcp/pcj094

Plant and Cell Physiology Advance Access originally published online on August 22, 2006
Plant and Cell Physiology 2006 47(9):1241-1250; doi:10.1093/pcp/pcj094

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© The Author 2006. Published by Oxford University Press on behalf of Japanese Society of Plant Physiologists. All rights reserved. For permissions, please email: journals.permissions@oxfordjournals.org

Expression and Inhibition of Aquaporins in Germinating Arabidopsis Seeds

Clare Vander Willigen¹, Olivier Postaire¹, Colette Tournaire-Roux¹, Yann Boursiac¹^,2 and Christophe Maurel¹^,*

¹ Biochimie et Physiologie Moléculaire des Plantes, Agro-M/CNRS/INRA/UM2 UMR 5004, Place Viala, F-34060 Montpellier Cedex 1, France

* Corresponding author: E-mail, maurel{at}ensam.inra.fr; Fax, + 33-4-67-52-57-37.

Extensive and kinetically well-defined water exchanges occurduring germination of seeds. A putative role for aquaporinsin this process was investigated in Arabidopsis. Macro-arrayscarrying aquaporin gene-specific tags and antibodies raisedagainst aquaporin subclasses revealed two distinct aquaporinexpression programs between dry seeds and young seedlings. Highexpression levels of a restricted number of tonoplast intrinsicprotein (TIP) isoforms (TIP3;1 and/or TIP3;2, and TIP5;1) togetherwith a low expression of all 13 plasma membrane aquaporin (PIP)isoforms was observed in dry and germinating materials. In contrast,prevalent expression of aquaporins of the TIP1, TIP2 and PIPsubgroups was induced during seedling establishment. Mercury(5 µM HgCl₂), a general blocker of aquaporins in variousorganisms, reduced the speed of seed germination and induceda true delay in maternal seed coat (testa) rupture and radicleemergence, by 8–9 and 25–30 h, respectively. Mostimportantly, mercury did not alter seed lot homogeneity northe seed germination developmental sequence, and its effectswere largely reversed by addition of 2 mM dithiothreitol, suggestingthat these effects were primarily due to oxidation of cell components,possibly aquaporins, without irreversible alteration of cellintegrity. Measurements of water uptake in control and mercury-treatedseeds suggested that aquaporin functions are not involved inearly seed imbibition (phase I) but would rather be associatedwith a delayed initiation of phase III, i.e. water uptake accompanyingexpansion and growth of the embryo. A possible role for aquaporinsin germinating seeds and more generally in plant tissue growthis discussed.

^² Present address: Department of Biochemistry and Molecular Biology,University of Nevada, Reno, NV 89557, USA.

(Received June 14, 2006; Accepted July 21, 2006)
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