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REFERENCES

  • Becker R., Fritz E. & Manteuffel R. (1995) Subcellular localization and characterization of excessive iron in the nicotianamineless tomato mutant chloronerva. Plant Physiology 108, 269275.
  • Bereczky Z., Wang H.Y., Schubert V., Ganal M. & Bauer P. (2003) Differential regulation of nramp and irt metal transporter genes in wild type and iron uptake mutants of tomato. Journal of Biological Chemistry 278, 2469724740.
  • Brown J.C., Chaney R.L. & Ambler J.E. (1971) A new tomato mutant inefficient in the transport of iron. Physiologia Plantarum 24, 4853.
  • Brumbarova T. & Bauer P. (2005) Iron-mediated control of the basic Helix-Loop-Helix protein FER, a regulator of iron uptake in tomato. Plant Physiology 137, 10181026.
  • Colangelo E.P. & Guerinot M.L. (2004) The essential basic helix-loop-helix protein FIT1 is required for the iron deficiency response. The Plant Cell 16, 34003412.
  • Connolly E.L., Fett J.P. & Guerinot M.L. (2002) Expression of the IRT1 metal transporter is controlled by metals at the levels of transcript and protein accumulation. The Plant Cell 14, 13471357.
  • Connolly E.L., Campbell N.H., Grotz N., Prichard C.L. & Guerinot M.L. (2003) Overexpression of the FRO2 ferric chelate reductase confers tolerance to growth on low iron and uncovers posttranscriptional control. Plant Physiology 133, 11021110.
  • Crawford N.M. & Glass A.D.M. (1998) Molecular and physiological aspects of nitrate uptake in plants. Trends in Plant Science 3, 389395.
  • Dalton C.C., Iqbal K. & Turner D.A. (1983) Iron phosphate precipitation in Murashige and Skoog media. Physiologia Plantarum 57, 472476.
  • Eckhardt U., Marques A.M. & Buckhout T.J. (2001) Two iron-regulated cation transporters from tomato complement metal uptake-deficient yeast mutants. Plant Molecular Biology 45, 437448.
  • Eide D., Broderius M., Fett J. & Guerinot M.L. (1996) A novel iron-regulated metal transporter from plants identified by functional expression in yeast. Proceedings of the National Academy of Sciences USA 93, 56245628.
  • Gamborg O.L., Miller R.A. & Ojima K. (1968) Nutrient requirements of suspension cultures of soybean root cells. Experimental Cell Research 50, 151158.
  • Hell R. & Stephan U.W. (2003) Iron uptake, trafficking and homeostasis in plants. Planta 216, 541551.
  • Hoffmann B., Plänker R. & Mengel K. (1992) Measurements of pH in the apoplast of sunflower leaves by means of fluorescence. Physiologia Plantarum 84, 146153.
  • Jakoby M., Wang H.Y., Reidtb W., Weisshaar B. & Bauerb P. (2004) FRU (BHLH029) is required for induction of iron mobilization genes in Arabidopsis thaliana. FEBS Letters 577, 528534.
  • Kosegarten H., Wilson G.H. & Esch A. (1998) The effect of nitrate nutrition on Fe chlorosis and leaf growth in sunflower (Helianthus annuus L). European Journal of Agronomy 3-4, 283292.
  • Kosegarten H., Hoffmann B. & Mengel K. (2001) The paramount influence of nitrate in increasing apoplastic pH of young sunflower leaf to induce Fe deficiency chlorosis, and the re-greening effect brought about acid foliar sprays. Journal of Plant Nutrition and Soil Science 164, 155163.
  • Kosegarten H.U., Hoffmann B. & Mengel K. (1999) Apoplastic pH and Fe3+ reduction in intact sunflower leaves. Plant Physiology 121, 10691079.
  • Li L.H., Cheng X.D. & Ling H.Q. (2004) Isolation and characterization of Fe (III)-chelate reductase gene LeFRO1 in tomato. Plant Molecular Biology 54, 125136.
  • Ling H.Q. & Ganal M.W. (2000) Towards map-based cloning of two genes involved in iron uptake of tomato. Journal of Plant Nutrition 23, 19531967.
  • Ling H.Q., Pich A., Scholz G. & Ganal M.W. (1996) Genetic analysis of two tomato mutants affected in the regulation of iron metabolism. Molecular and General Genetics 252, 8792.
  • Ling H.Q., Koch G., Bäumlein H. & Ganal M.W. (1999) Map-based cloning of chloronerva, a gene involved in iron uptake of higher plants encoding nicotinamine synthase. Proceedings of the National Academy of Sciences USA 96, 70987103.
  • Ling H.Q., Bauer P., Bereczky Z., Keller B. & Ganal M. (2002) The tomato fer gene encoding a bHLH protein controls iron-uptake responses in roots. Proceedings of the National Academy of Sciences USA 99, 1393813943.
  • López-Millán A.F., Morales F., Abadía A. & Abadía J. (2001) Iron deficiency-associated changes in the composition of the leaf apoplastic fluid from field-grown pear (Pyrus communis L.) trees. Journal of Experimental Botany 52, 14891498.
  • Marschner H. & Römheld V. (1994) Strategies of plants for acquisition of iron. Plant and Soil 165, 275283.
  • Mengel K. (1994) Iron availability in plant tissues: iron chlorosis on calcareous soils. Plant and Soil 165, 275283.
  • Mengel K. & Geurtzen G. (1988) Relationship between Fe chlorosis and alkalinity in Zea mays. Physiologia Plantarum 72, 460465.
  • Mengel K., Plänker R. & Hoffmann B. (1994) Relationship between leaf apoplast pH and iron chlorosis of sunflower (Helianthus annuus L). Journal of Plant Nutrition 17, 10531065.
  • Nikolic M. & 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, 229237.
  • Nikolic M. & Römheld V. (2003) Nitrate does not result in iron inactivation in the apoplast of sunflower leaves. Plant Physiology 132, 13031314.
  • Papathanasiou F., Selby C. & Harvey B.M.R. (1996) Soluble iron lost from MS medium pre-exposed to light but growth of potato plantlets is not inhibited. Plant Cell, Tissue and Organ Culture 46, 117121.
  • Robinson N.J., Proctor C.M., Connolly E.L. & Guerinot M.L. (1999) A ferric chelate reductase for iron uptake from soils. Nature 397, 694697.
  • Römheld V. (2000) The chlorosis paradox: Fe inactivation as a secondary event in chlorotic leaves of grapevine. Journal of Plant Nutrition 23, 16291643.
  • Takahashi M., Terada Y., Nakai I., Nakanishi H., Yoshimura E., Mori S. & Nishizawa N.K. (2003) Role of nicotianamine in the intracellular delivery of metals and plant reproductive development. The Plant Cell 15, 12631280.
  • Vert G., Briat J.F. & Curie C. (2001) Arabidopsis IRT2 gene encodes a root-periphery iron transporter. Plant Journal 26, 181189.
  • Vert G., Grotz N., Dedaldechamp F., Gaymard F., Guerinot M.L. & Briat J-F Curie C (2002) IRT1, an Arabidopsis transporter essential for iron uptake from the soil and plant growth. The Plant Cell 14, 12231233.
  • Waters B.M., Blevins D.G. & Eide D.J. (2002) Characterization of FRO1, a pea ferric-chelate reductase involved in root iron acquisition. Plant Physiology 129, 8594.
  • Wu H., Li L., Du J., Yuan Y., Cheng X. & Ling H.Q. (2005) Molecular and biochemical characterization of the Fe(III) chelate reductase gene family in Arabidopsis thaliana. Plant and Cell Physiology 46, 15051514.
  • Yuan Y., Zhang J., Wang D.W. & Ling H.Q. (2005) AtbHLH29 of Arabidopsis thaliana is a functional ortholog of tomato FER involved in controlling iron acquisition in strategy I plants. Cell Research 15, 613621.
  • Zou C.Q. & Zhang F.S. (2003) Ammonium improves iron nutrition by decreasing leaf apoplastic pH of sunflower plants (Helianthus annuus L. cv. Frankasol). Chinese Science Bulletin 48, 22152220.