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A Lycopersicon esculentum phosphate transporter (LePT1) involved in phosphorus uptake from a vesicular–arbuscular mycorrhizal fungus

Published online by Cambridge University Press:  01 December 1999

GARRY M. ROSEWARNE
Affiliation:
Department of Botany, The University of Adelaide, Adelaide, SA, Australia
SUSAN J. BARKER
Affiliation:
Department of Plant Science, The University of Adelaide, Adelaide, SA, Australia Department of Plant Science, University of Western Australia, Nedlands, WA, Australia
SALLY E. SMITH
Affiliation:
Department of Soil and Water, The University of Adelaide, Adelaide, SA, Australia
F. ANDREW SMITH
Affiliation:
Department of Botany, The University of Adelaide, Adelaide, SA, Australia
DANIEL P. SCHACHTMAN
Affiliation:
Department of Botany, The University of Adelaide, Adelaide, SA, Australia Present address: CSIRO Plant Industry, PO Box 350, Glen Osmond, SA, 5064 Australia (tel +61 8 83038600; fax +61 8 83038601; e-mail [email protected]).
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Abstract

In vesicular–arbuscular mycorrhizal symbioses, specialized fungal structures (the arbuscules) are formed which are in intimate contact with plant root cortical cells. It is assumed that these arbuscules are the major sites of solute transfer between the plant and fungus, but there have been no studies that definitively show the extent or types of transfer processes that occur in this structure. Phosphate is one of the major nutrients that is acquired by mycorrhizal fungi and transferred to plants. In this study a single Lycopersicon esculentum cDNA was cloned and shown to be identical to LePT1, a previously cloned inorganic-phosphate transporter. Expression studies revealed that LePT1 transcript levels remained constant in mycorrhizal plants, but increased in phosphate-starved, non-mycorrhizal plants. Localization of the LePT1 transcript by in situ hybridization showed that this gene is highly expressed in arbuscule-containing cortical cells in mycorrhizal plants. In non-mycorrhizal plants LePT1 expression was localized to the stele and cortex. The expression studies suggest that this transporter is involved in phosphate nutrition of L. esculentum and its localization in cells that contain arbuscules indicate that it may be the mechanism used by the plant to take up phosphate that is effluxed across the fungal plasma membrane of the arbuscule. Based on our findings and those of others, an integrated model of inorganic phosphate uptake and transfer in mycorrhizal and non-mycorrhizal plants is presented.

Type
Research Article
Copyright
© Trustees of the New Phytologist 1999

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