Tobacco plants that lack expression of functional nitrate reductase in roots show changes in growth rates and metabolite accumulation

doi:10.1093/jexbot/52.359.1251

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Journal of Experimental Botany, Vol. 52, No. 359, pp. 1251-1258, June 1, 2001
© 2001 Oxford University Press

Original Papers

Tobacco plants that lack expression of functional nitrate reductase in roots show changes in growth rates and metabolite accumulation

Robert Hänsch¹, Desirée Gómez Fessel¹, Christina Witt¹, Christine Hesberg¹, Guido Hoffmann¹, Pia Walch-Liu², Christof Engels², Jörg Kruse³, Heinz Rennenberg³, Werner M. Kaiser⁴ and Ralf-R. Mendel¹^,5

¹ Botanisches Institut, Technische Universität Braunschweig, D-38106 Braunschweig, Germany
² Institut für Pflanzenernährung, Universität Hohenheim, D-70593 Stuttgart, Germany
³ Institut für Forstbotanik und Baumphysiologie, Albert-Ludwigs-Universität, D-79110 Freiburg, Germany
⁴ Julius-von-Sachs-Institut für Biowissenschaften, Universität Würzburg, D-97082 Würzburg, Germany

When tobacco is provided with a high nitrate supply, only asmall amount of the nitrate taken up by the roots is immediatelyassimilated inside the roots, while the majority is transportedto the leaves where it is reduced to ammonium. To elucidatethe importance of root nitrate assimilation, tobacco plantshave been engineered that showed no detectable nitrate reductaseactivity in the roots. These plants expressed the nitrate reductasestructural gene nia2 under control of the leaf-specific potatopromoter ST-LS1 in the nitrate reductase-mutant Nia30 of Nicotianatabacum. Homozygous T2-transformants grown in sand or hydroponicswith 5.1 mM nitrate had approximately 55–70% of wild-typenitrate reductase acivity in leaves, but lacked nitrate reductaseacivity in roots. These plants showed a retarded growth as comparedwith wild-type plants. The activation state of nitrate reductasewas unchanged; however, diurnal variation of nitrate reductaseacivity was not as pronounced as in wild-type plants. The transformantshad higher levels of nitrate in the leaves and reduced amountsof glutamine both in leaves and roots, while roots showed higherlevels of hexoses (3-fold) and sucrose (10-fold). It may beconcluded that the loss of nitrate reductase acivity in theroots changes the allocation of reduced nitrogen compounds andsugars in the plant. These plants will be a useful tool forlaboratories studying nitrate assimilation and its interactionswith carbon metabolism.

Key words: Diurnal variation, leaf specific expression, nitrate reductase, tobacco, roots.

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