Uptake system of silicon in different plant species

doi:10.1093/jxb/eri121

JXB Advance Access originally published online on March 7, 2005
Journal of Experimental Botany 2005 56(414):1255-1261; doi:10.1093/jxb/eri121

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© The Author [2005]. Published by Oxford University Press [on behalf of the Society for Experimental Biology]. All rights reserved. For Permissions, please e-mail: journals.permissions@oupjournals.org

RESEARCH PAPER

Uptake system of silicon in different plant species

Namiki Mitani and Jian Feng Ma^*

Faculty of Agriculture, Kagawa University, Ikenobe 2393, Miki-cho, Kita-gun, Kagawa 761-0795, Japan

^* To whom correspondence should be addressed. Fax: +81 87 891 3137. E-mail: maj{at}ag.kagawa-u.ac.jp

The accumulation of silicon (Si) in the shoots varies considerablyamong plant species, but the mechanism responsible for thisvariation is poorly understood. The uptake system of Si wasinvestigated in terms of the radial transport from the externalsolution to the root cortical cells and the release of Si fromthe cortical cells to the xylem in rice, cucumber, and tomato,which differ greatly in shoot Si concentration. Symplasmic solutionsof the root tips were extracted by centrifugation. The concentrationsof Si in the root-cell symplast in all species were higher thanthat in the external solution, although the concentration inrice was 3- and 5-fold higher than that in cucumber and tomato,respectively. A kinetic study showed that the radial transportof Si was mediated by a transporter with a K_m value of 0.15mM in all species, but with different V_max values in the orderof rice>cucumber>tomato. In the presence of the metabolicinhibitor 2,4-dinitrophenol, and at low temperature, the Siconcentration in the root-cell symplast decreased to a levelsimilar to that of the apoplasmic solution. These results suggestthat both transporter-mediated transport and passive diffusionof Si are involved in the radial transport of Si and that thetransporter-mediated transport is an energy-dependent process.The Si concentration of xylem sap in rice was 20- and 100-foldhigher than that in cucumber and tomato, respectively. In contrastto rice, the Si concentration in the xylem sap was lower thanthat in the external solution in cucumber and tomato. A kineticstudy showed that xylem loading of Si was also mediated by akind of transporter in rice, but by passive diffusion in cucumberand tomato. These results indicate that a higher density oftransporter for radial transport and the presence of a transporterfor xylem loading are responsible for the high Si accumulationin rice.

Key words: Passive diffusion, radial transport, silicon, transporter, uptake, xylem loading

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