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Journal of Plant Nutrition Volume 24, 2001 - Issue 2
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Original Articles

IRON IS REQUIRED FOR THE INDUCTION OF ROOT FERRIC CHELATE REDUCTASE ACTIVITY IN IRON-DEFICIENT TOMATO

Mohamed Zouari
,
Anunciación Abadía
&
Javier AbadíaCorrespondence[email protected]
Pages 383-396 | Published online: 16 Aug 2006

REFERENCES

  • Marschner , H. , Römheld , V. and Kissel , M. 1986 . Different Strategies in Higher Plants in Mobilization and Uptake of Iron . J. Plant Nutr. , 9 : 695 – 713 .
  • Schmidt , W. 1999 . Mechanisms and Regulation of Reduction-Based Iron Uptake in Plants . New Phytol. , 141 : 1 – 26 .
  • Bienfait , H. F. 1988 . Mechanisms in Fe-Efficiency Reactions of Higher Plants . J. Plant Nutr. , 11 : 605 – 629 .
  • Welkie , G. W. and Miller , G. W. 1993 . “ Plant Iron Uptake Physiology by Nonsiderophore Systems ” . In Iron Chelation in Plants and Soil Microorganisms Edited by: Barton , L. L. , Hemming , B. C. and Hemming . 345 – 369 . San Diego, CA : Academic Press .
  • Rubinstein , B. and Luster , D. G. 1993 . Plasma Membrane Redox Activity: Components and Role in Plant Processes . Ann. Rev. Plant Physiol. & Plant Molecular Biol. , 44 : 131 – 155 .
  • Moog , P. R. and Brüggemann , W. 1994 . Iron Reductase Systems in the Plant Plasma Membrane: A Review . Plant Soil , 165 : 241 – 260 .
  • Susín , S. , Abadía , A. , Gonzalez-Reyes , I. A. , Lucena , J. J. and Abadía , J. 1996 . The pH Requirement for in vivo Activity of the Iron Deficiency-Induced Turbo Ferric Chelate Reductase: A Comparison of the Iron Deficiency-Induced Iron Reductase Activities of Intact Plants and Isolated Plasma Membrane Fractions in Sugar Beet . Plant Physiol. , 110 : 111 – 123 .
  • Romera , F. J. , Welch , R. M. , Norwell , W. A. and Schaefer , S. C. 1996a . Iron Requirement for and Effects of Promoters and Inhibitors of Ethylene Action on Stimulation of Fe(III)-Chelate Reductase in Roots of Strategy I Species . Biometals , 9 : 45 – 50 .
  • 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 .
  • Grusak , M. , Welch , R. , Kochiam , L. and Kochiam . 1990 . Does Iron Deficiency in Pisum sativum Enhance the Activity of the Root Plasmalemma Iron Transport Protein? . Plant Physiol. , 94 : 1353 – 1357 .
  • Romera , F. J. , Alcántara , E. and de la Guardia , M. D. 1992 . Effects of Bicarbonate, Phosphate, and High pH on the Reducing Capacity of Fe-Deficient Sunflower and Cucumber Plants . J. Plant Nutr. , 15 : 1519 – 1530 .
  • Romera , F. J. , Welch , R. M. , Norwell , W. A. , Schaefer , S. C. , Kochian , L. V. and Kochian . 1996b . Ethylene Involvement in the Over-Expression of Fe(III)-Chelate Reductase by Roots of E107 Pea [Pisum sativum L. (brz, brz] and Chloronerva Tomato (Licopersicon esculentum L.) Mutant Genotypes . Biometals , 9 : 38 – 44 .
  • Brown , J. C. , Chaney , R. L. and Ambler , J. E. 1971 . A New Tomato Mutant Inefficient in the Transport of Iron . Physiol. Plant , 25 : 48 – 53 .
  • Schölz , G. , Becker , R. , Pich , A. and Stephan , O. W. 1992 . Nicotianamine—A Common Constituent of Strategies I and II of Iron Acquisition by Plants: A Review . J. Plant Nutr. , 15 : 1647 – 1665 .
  • Bienfait , H. F. , Bino , R. J. , van der Bliek , A. M. , Duivenboorden , J. F. and Fontaine , J. M. 1983 . Characterization of Ferric Reducing Activity in Roots of Fe-Deficient Phaseolus vulgaris . Physiol. Plant , 59 : 196 – 202 .
  • Brüggemann , W. and Moog , P. R. 1989 . NADH-Dependent Fe3+-EDTA and Oxygen Reduction by Plasma Membrane Vesicles from Barley Roots . Physiol. Plant , 75 : 245 – 254 .
  • Buckhout , T. J. , Bell , P. F. , Luster , D. G. and Chaney , R. L. 1989 . Iron-Stress Induced Redox Activity in Tomato (Lycopersicum esculentum Mill.) is Localized on the Plasma Membrane . Plant Physiol. , 90 : 151 – 156 .
  • Holden , M. J. , Luster , D. G. , Chaney , R. L. , Buckhout , T. J. and Robinson , C. 1991 . Fe3+-Chelate Reductase Activity of Plasma Membranes Isolated from Tomato (Lycopersicon esculentum Mill.) Roots: Comparison of Enzymes from Fe-Deficient and Fe-Sufficient Roots . Plant Physiol. , 97 : 537 – 544 .
  • Schmidt , W. and Janiesch , P. 1991 . Ferric Reduction by Geum urbanum: A Kinetic Study . J. Plant Nutr. , 14 : 1023 – 1034 .
  • Zouari , M. 1996 . Reponses Radiculaires Face a la Deficience en fer chez Differents Genotypes de Tomate et de Betterave , Master Thesis Zaragoza, , Spain : International Center for Advanced Agronomic Mediterranean Studies-Instituto Agronomico Mediterraneo de Zaragoza (CIHEAM-IAMZ) .
  • Bienfait , H. F. 1987 . “ Biochemical Basis of Iron Efficiency Reactions in Plants ” . In Iron Transport in Microbes, Plants and Animals Edited by: Wirikelmann , G. , van der Helm , D. and Neilands , J. B. 339 – 349 . Weinheim, , Germany : VCH Verlagsgesellschaft .
  • Stephan , U. W. and Grun , M. 1989 . Physiological Disorders of the Nicotianamine-Auxotroph Tomato Mutant Chloronerva at Different Levels of Iron Nutrition. II Iron Deficiency Response and Heavy Metal Metabolism . Biochem. Physiol. Pflanz. , 185 : 189 – 200 .
  • Brüggemann , W. , Nakawawa , H. , Janiesh , P. and Kuiper , P. J.C. 1990 . Plasma Membrane-Bound NADH Fe3+-EDTA Reductase and Iron Deficiency in Tomato (Lycopersicum esculentum): Is There a Turbo Reductase? . Physiol. Plant , 79 : 339 – 346 .
  • Chaney , R. L. , Chen , Y. , Green , C. E. , Holden , M. J. , Bell , P. F. , Luster , D. G. and Angle , J. S. 1992 . Root Hairs on Chlorotic Tomatoes are an Effect of Chlorosis Rather than part of the Adaptative Fe-Stress Response . J. Plant Nutr. , 15 : 1857 – 1875 .
  • Bienfait , H. F. , Weger , L. A.d. , Kramer , D. and Weger , L. A. 1987 . Control of the Development of Iron-Efficiency Reactions in Potato as a Response to Iron Deficiency is Located in the Roots . Plant Physiol. , 83 : 244 – 247 .
  • Gogorcena , Y. , Abadía , J. and Abadía , A. 2000 . Induction of in vivo Root Ferric Chelate-Reductase Activity in a Fruit Tree rootstock . J. Plant Nutri. , 23 ( 1 ) : 9 – 21 .
  • Rombolà , A. , Brüggemann , W. , Tagliavini , M. , Marangoni , B. , Moog , P. R. and Moog . 2000 . Iron Source Affects Fe Reduction and Re-Greening of Kiwifruit (Actinidia deliciosa) Leaves . J. Plant Nutr. , 23 ( 11/12 ) : 1751 – 1765 .

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