Strictly NO 3nutrition alleviates iron deficiency chlorosis in Arabidopsis thaliana plants
Автор: Msilini Najoua, Guesmi Ines, Chebbi Mohamed, Amdouni Thouraya, Lachal Mokhtar, Ouerghi Zeineb
Журнал: Журнал стресс-физиологии и биохимии @jspb
Статья в выпуске: 1 т.10, 2014 года.
Бесплатный доступ
The effects of NO 3- nutrition on iron deficiency responses were investigated in Arabidopsis thaliana. Plants were grown with or without 5 µM Fe, and with NO 3- alone or a mixture of NO 3- and NH 4+. The results indicated that, NO 3- nutrition induced higher dry matter production, regardless the Fe concentration. Fe deficiency reduced growth activity, photosynthetic pigment concentration and Fe content of plants, whatever the N forms. This decrease was more pronounced in plants grown with mixed N source; those plants presented the highest EL and MDA and anthocyanin contents compared to plants grown under Fe sufficient conditions. In iron free-solutions, with NO 3- as the sole nitrogen source, enhanced FC-R activity in the roots was observed. However, in the presence of NH 4+, plants displayed some decrease in in FC-R and PEPC activities. The presence of NH 4+ modified typical Fe stress responses in Arabidopsis thaliana plants.
Arabidopsis thaliana, iron deficiency, nitric nutrition
Короткий адрес: https://sciup.org/14323838
IDR: 14323838
Список литературы Strictly NO 3nutrition alleviates iron deficiency chlorosis in Arabidopsis thaliana plants
- Abadía, J., López-Millán, A.F., Rombolà, A. and Abadía, A. (2002) Organic acids and Fe deficiency. A review. Plant. soil., 241, 75-86
- Andaluz, S., López-Millán, A.F., Peleato, M.L., Abadía, J. and Abadía, A. (2002) Increases in phosphoenol pyruvate carboxylase activity in iron-deficient sugar beet roots: Analysis of spatial localization and post-translational modification. Plant. Soil., 241, 43-48
- Assimakopoulou, A. (2006) Effect of iron supply and nitrogen form on growth, nutritional status and ferric reducing activity of spinach in nutrient solution culture. Sci. Hortic., 110, 21-29
- Brancadoro, L., Rabotti, G., Scienza, A. and Zocchi, G. (1995) Mechanisms of Fe-efficiency in roots of Vitis spp. In response to iron deficiency stress. Plant. Soil., 171, 229-234
- Chaney, R.L., Brown, J.C. and Tiffin, L.O. (1972) Obligatory reduction of ferric chelates in iron uptake by soybeans. Plant. Physiol., 50, 208-213
- Claussen, W. (2002) Growth, water use efficiency, and proline content of hydroponically grown tomato plants as affected by nitrogen source and nutritient concentration. Plant. Soil., 247, 199-209
- Dell’Orto, M., Santi, S., Nisi, P.D., Cesco, S., Varanini, Z., Zocchi, G. and Pinton, R. (2000b) Development of Fe deficiency responses in cucumber (Cucumis sativus L.) roots: involvement of plasma membrane H+ ATPase activity. J. Exp. Bot., 51, 695-701
- Dionisio-Sese, M.L. and Tobita, S. (1998) Antioxidant responses of rice seedlings to salinity stress. Plant. Sci., 135, 1-9
- Gay, A.P. and Hauck, B. (1994) Acclimation of Lolium temulentum to enhanced carbon dioxide concentration. J. Exp. Bot., 45, 1133-1141
- Gharsalli, M. and Hajji, M. (1992) Effets d'une déficience ferrique sur l'activité de la pompe à protons de la membrane plasmique et la réduction de fer chez le tournesol. C. R. Acad. Sci. Paris., 315, 559-565
- Gibeaut, D.M., Hulett, J., Cramer, G.R. and Seemann, J.R. (1997) Maximal biomass of Arabidopsis thaliana using a simple, low-maintenance hydroponic method and favorable environmental conditions. Plant. Physiol., 115, 317-1
- Heath, R.L. and Packer, L. (1968) Photoperoxidation in isolated chloroplast. I. Kinetics and stoichiometry of fatty acid peroxidation. Arch. Biochem. Biophys., 125, 180-198
- Kim, S.A. and Guerinot, M.L. (2007) Mining iron: Iron uptake and transport in plants. FEBS. Letters., 581, 2273-2280
- Kosegarten, H., Hoffmann, B., Rroco, E., Grolig, F., Glusenkamp, K.H. and Mengel, K. (2004) Apoplastic pH and FeIII reduction in young sunflower (Helianthus annuus) roots. Physiol. Plant., 122, 95-106
- Kosegarten, H. and Englisch, G. (1994) Effect of various nitrogen forms on the pH in leaf apoplast and on iron chlorosis of Glycine max L. Z. Pflanzenernähr. Bodenk., 157, 401-405
- Kosegarten, H., Hoffmann, B. and Mengel, K. (2001) The paramount influence of nitrate in increasing apoplastic pH of young sunflower leaves to induce Fe deficiency chlorosis, and the regreening effect brought about by acidic foliar sprays. J. Plant. Nutr. Soil. Sci., 164, 155-163
- Lichtenthaler, H.K. (1988) Chlorophylls and carotenoids: pigments of photosynthetic biomembranes. Method. Enzymol., 148, 350-383
- Lindsay, W.L. (1984) Soil and plant relationships associated with iron deficiency with emphasis on nutrient interactions. J. Plant. Nutr., 7, 489-500
- Liorente, S., Lèon, A., Torrecillas, A. and Alcaraz, C. (1976) Leaf iron fractions and their relation with iron in Citrus. Agrochimica, 20, 204-212
- Marschner, H. (1995) Mineral Nutrition of higher plants. Academic Press, London
- Mengel, K., Planker, R. and Hoffmann, B. (1994) Relationship between leaf apoplast pH and iron chlorosis of sunflower (Helianthuus annuus L.). J. Plant. Nutr., 17, 1053-1065
- Mengel, K. (1995) Fe availability in plant tissues-Fe chlorosis on calcareous soils. Kluwer Academic Publishers, The Netherlands
- Molassiotis, A., Tanou, G., Diamantidis, G., Patakas, A. and Therios, I. (2006) Effect of 4-month Fe deficiency exposure on Fe reduction mechanism, photosynthetic gas exchange, chlorophyll fluorescence and antioxidant defense in two peach rootstocks differing in Fe deficiency tolerance. J. Plant. Physiol., 163, 176-185
- Mtimet, A. (2001) Soil resources of Southern and Eastern Mediterranean Countries. Bari, Italy
- Murray, J.R. and Hackett, W.P. (1991) Dihydroflavonol reductase activity in relation to differential anthocyanin accumulation in juvenile and mature phase (Hedera helix L). Plant. physiol., 97, 343-351
- Nikolic, M. and Römheld, V. (1999) Mechanism of Fe uptake by the leaf symplast: Is Fe inactivation in leaf a cause of Fe deficiency chlorosis? Plant. Soil., 215, 229-237
- Ouerghi, Z., Cornic, G., Roudani, M., Ayadi, A. and Brulfert, J. (2000) Effect of NaCl on photosynthesis of two wheat species (Triticum durum and T. aestivum) differing in their sensitivity to salt stress. J. Plant. Physiol., 156, 335-340
- Rabhi, M., Barhoumi, Z., Ksouri, R., Abdelly, C. and Gharsalli, M. (2007) Interactive effects of salinity and iron deficiency in Medicago ciliaris. C. R. Biol., 330, 779-788
- Ranieri, A., Castagna, A., Baldan, B. and Soldatini, G.F. (2001) Fe deficiency differently affects peroxidase isoforms in sunflower. J. Exp. Bot., 52, 25-35
- Rivero, R.M., Sanchez, E., Ruiz, J.M. and Romero, L. (2003) Fe metabolism in tomato and watermelon plants: influence of nitrogen source. J. Plant. Nutr., 26, 2413-2424
- Sato, F.K., Nishida, K. and Yamada, Y. (1980) Activities of carboxylation enzymes and products of 14CO2 fixation in photoautotrophically cultured cells. Plant. Sci. Lett., 20, 91-97
- Schmidt, W. (2006) Iron stress response in roots of Strategy I plants. Springer, The Netherlands
- Schmidt, W., Tittel, J. and Schikora, A. (2000) Role of hormones in the induction of iron deficiency responses in Arabidopsis roots. Plant. Physiol., 122, 1109-1118
- Sgherri, C., Stevanovic, B. and Navari-Izzo, F. (2004) Role of phenolics in the antioxidative status of the resurrection plant Ramonda serbica during dehydration and rehydration. Physiol. Plant., 122, 478-488
- Stephan, U.W. (2002) Intra-and intercellular iron trafficking and subcellular compartmentation within roots. Plant. Soil., 241, 19-25
- Touraine, B., Daniel-Vedele, F. and Forde, B.G. (2001) Nitrate uptake and its regulation. INRA-Editions and Springer-Verlag, Heidelberg
- Von Wirén N, Gojon, A., Chaillou, S. and Raper, D. (2001) Mechanisms and regulation of ammonium uptake in higher plants. INRA-Editions and Springer-Verlag, Heidelberg
- Zaharieva, T.B., Gogorcena, Y. and Abadia, J. (2004). Dynamics of metabolic responses to iron deficiency in sugar beet roots. Plant. Sci., 166, 1045-1050
- Zocchi, G., De Nisi, P., Dell’Orto, M., Espen, L. and Gallina, P.M. (2007). Iron deficiency differently affects metabolic responses in soybean roots. J. Exp. Bot., 58, 993-1000
- Zornoza, P., and Gonzalez, M. (1998) Varietal specifity in growth, nitrogen uptake, and distribution under contrasting forms of nitrogen supply in spinach. J. Plant. Nutr., 21, 837-847