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Journal of Plant Nutrition Volume 9, 1986 - Issue 3-7: Iron Nutrition and Interactions in Plants
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Root rhizosphere and microorganisms

Nicotianamine and related phytosiderophores: Their physiological significance and advantages for plant metabolism

C.D. Walker Department of Agronomy, Waite Agricultural Research Institute University of Adelaide, Glen Osmond, South Australia, 5064, Australia
&
R.M. Welch U.S. Department of Agriculture, Agricultural Research Service U.S. Plant, Soil, and Nutrition Laboratory, Ithaca, NY, 14353, USA
Pages 523-534 | Published online: 21 Nov 2008

References

  • Bannister , W.H. , Bannister , J.B. , Searle , A.J.F. and Thornalley , P.J. 1983 . The reaction of Superoxide radicals with metal picolinate complexes . Inorg. Chim. A. , 78 : 139 – 142 .
  • Benes , I. , Schreiber , K. , Ripperger , H. and Kircheiss , A. 1983 . Metal complex formation by nicotianamine, a possible phytosiderophore . Experientia , 39 : 261 – 262 .
  • Budesinsky , M. , Budzikiewicz , H. , Prochazka , Z. , Ripperger , H. , Romer , A. , Scholz , G. and Schreiber , K. 1980 . Micotianamine, A possible phytosiderophore of general occurrence . Phytochem. , 19 : 2295 – 2297 .
  • Budesinsky , M. , Prochazka , Z. , Budzikiewicz , H. , Römer , A. , Ripperger , H. , Schreiber , K. and Scholz , A. 1981 . On the normalizing factor for the tomato mutant chloronerva. XI. Mass and nmr spectroscopic investigations of the phytosfderophore nicotianamine and some of its derivatives . Tetrahedron , 37 : 191 – 196 .
  • 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 .
  • Emery , T. 1980 . Iron deprivation as a biological defense mechanism . Nature (Lond.) , 287 : 776 – 777 .
  • Frahn , J.L. 1958 . The photochemical decomposition of the citrate‐ferric iron complex: a study of reaction products by paper ionophoresis . Aust. J. Chem. , 11 : 399 – 405 .
  • Fowden , L. , Lea , P.J. and Bell , E.A. 1979 . Non‐protein amino acids of plants . Adv. Enzymol. , 50 : 115 – 175 .
  • Fushiya , S. , Sato , Y. , Nozoe , S. , Nomoto , K. , Takemoto , T. and Takagi , S. 1980 . Avenic acid, a new amino acid possessing an iron chelating activity . Tetr. Lett. , 21 : 3071 – 3072 .
  • Fushiya , S. , Takahashi , K. , Nakatsuyama , S. , Sato , Y. , Nozoe , S. and Takagi , S. 1982 . Co‐occurrence of nicotianamine and avenic acids in Avena sativa and Oryza sativa . Phytochem. , 21 : 1907 – 1908 .
  • Gray , H.B. 1981 . Baker Lecture Series , Cornell University .
  • Mark , A.G. , Scott , R.A. and Gray , H.B. 1980 . Distance of electron‐transfer to and from metalloprotein redox sites in reactions with inorganic complexes . J. Am. Chem. S. , 102 : 4360 – 4363 .
  • Hanzlik , R.P. 1976 . Inorganic Aspects of biological and Organic Chemistry , 139 – 153 . New York : Academic Press .
  • Hart , B.T. 1981 . Trace metal complexing capacity of natural waters: ‐a review . Env. Tech. Lett. , 2 : 95 – 110 .
  • Hill‐Cottingham , O.G. and Lloyd‐Jones , C.P. 1965 . The behavior of iron chelating agents with plants . J. Exp. Bot. , 16 : 233 – 242 .
  • Kasai , T. , Larsen , P.O. and Sorensen , H. 1978 . Free amino acids and γ‐glutamyl peptides in Fagaceae . Phytochem. , 17 : 1911 – 1915 .
  • Kristensen , I. and Larsen , P.O. 1974 . Azetidine‐2‐carboxylic acid derivatives from seeds of Fagus silvatica L. and a revised structure for nicotianamine . Phytochem. , 13 : 2791 – 2798 .
  • Lockhart , H.B. and Blakely , R.V. 1975 . Aerobic photodegradation of Fe(III)‐(ethylenedinitrilo)tetraacetate (Ferric EDTA). Implications for natural waters . Env. Sci. Tech. , 9 : 1035 – 1038 .
  • McKnight , D.M. and Morel , F.M.M. 1980 . Copper complexation by siderophores from filamentous blue green algae . Limnol. Oceanogr. , 25 : 62 – 71 .
  • Mino , Y. , Ishia , T. , Ota , N. , Inoue , M. , Nomoto , K. , Takemoto , T. , Tanaka , H. and Sugiura , Y. 1983 . Mugineic acid ‐ iron(III) complex and its structurally analogous cobalt(III) complex: Characterization and implication for absorption and transport of iron in graminaceous plants . J. Am. Chem. S. , 105 : 4671 – 4676 .
  • Nielands , J.B. 1977 . “ Siderophores: biochemical ecology and mechanism of iron transport in enterobacteria ” . In ‘Bioinorganic Chemistry II’ , Edited by: Raymond , K.N. Vol. 162 , 3 – 32 . Washington, DC : Am. Chem. S. .
  • Noma , M. and Noguchi , M. 1976 . Occurrence of nicotianamine in higher plants . Phytochem. , 15 : 1701 – 1702 .
  • Nomoto , K. , Mino , Y. , Ishida , T. , Yoshioka , H. , Ota , N. , Inoue , M. , Takagi , S. and Takemoto , T. 1981 . X‐ray crystal structure of the copper (II) complex of mugineic acid, a naturally occurring metal chelator from graminaceous plants . J.C.S. Chem. Comm. , : 338 – 339 . 1981
  • Ragan , M.A. , Ragan , C.M. and Jensen , A. 1980 . Natural chelators in sea water ‐ detoxification of Zn2+ by brown algal polyphenols . J. Exp. Mar. B. , 44 : 261 – 267 .
  • Ripperger , H. , Faust , J. and Scholz , G. 1982 . Synthesis and biological activity of (+)‐nicotianamine . Phytochem , 21 : 1785 – 1786 .
  • Ripperger , H. and Schreiber , K. 1982 . Nicotianamine and analogous amino acids, endogenous iron carriers in higher plants . Heterocycle , 17 : 447 – 461 .
  • Römheld , V. and Marschner , H. 1983 . Mechanism of iron uptake by peanut plants. I. Fe(III) reduction, chelate splitting, and release of phenolics . Plant Physiol. , 71 : 949 – 954 .
  • Rudolph , A. and Scholz , G. 1972 . Physiological investigations on the mutant chioronerva from Lycopersicon esculentum Mill. IV. A method for quantitiave determination of the normalizing factor and its distribution in the plant kingdom . Biochem. Physiol. Pflanzen , 163 : 156 – 168 .
  • Scholz , G. 1970 . Physiological investigations on the mutant chloronerva from Lycopersicon esculentum Mill. III. Complex formation of the normalizing factor with iron and copper . Biochem. Physiol. Pflanzen , 161 : 358 – 367 .
  • Scholz , G. 1983 . The amino acid nicotianamine, an effector of root elongation for the tomato mutant chloronerva (Lycopersicon esculentum Mill.) . Plant Sci. Lett. , 32 : 327 – 332 .
  • Sechback , J. 1982 . Ferreting out the secrets of plant ferritin ‐ a review . J. Plant Nutr. , 5 : 369 – 394 .
  • Sijmons , P.C. , Van Den Briel , W. and Bienfiat , H.F. 1984 . Cytosolic NADPH is the electron donor for extracellular Fe(III) reduction in iron‐deficient bean roots . Plant Physiol. , 75 : 219 – 221 .
  • Smeuthers , F. and Van De Geijn , S.C. 1983 . In situ immobilization of heavy metals with tetraethylenepentamine (tetren) in natural soils and its effect of toxicity and plant growth . Plant Soil , 70 : 59 – 61 .
  • Spiro , T.G. , Pape , L. and Saltman , P. 1967 . The hydrolytic polmerization of ferric citrate. I. The chemistry of the polymer . J. Am. Chem. S. , 89 : 5555 – 5558 .
  • Sugiura , Y. and Nomoto , K. 1984 . Phytosiderophores. Structure and properties of mugineic acids and their metal complexes . Structure and Bonding , 58 : 109 – 135 .
  • Sugiura , Y. , Tanaka , H. , Mino , Y. , Ishida , T. , Ota , N. , Homoto , K. , Yoshioka , H. and Takemoto , T. 1981 . Structure, properties, and transport mechanism of iron (III) complex of mugineic acid, a possible phytosiderophore . J. Am. Chem. S. , 103 : 6979 – 6982 .
  • Stephan , U.W. and Rudolph , A. 1984 . An improved and standardized method for extraction of nicotianamine from plant tissue . Biochem. Physiol. Pflanzen , 199 : 517 – 523 .
  • Takagi , S. , Nomoto , K. and Takemoto , T. 1984 . Physiological aspect of mugineic acid, a possible phytosiderophore of graminaceous plants . J. Plant Nutr. , 7 : 469 – 477 .
  • Tokemoto , T. , Nomoto , K. , Fushiya , S. , Ouchi , R. , Kusano , G. , Hikino , M. , Takagi , S. , Matsuura , Y. and Kakudo , M. 1978 . Strucutre of mugineic acid, a new amino acid possessing an iron‐chelating activity from root washings of water‐cultured Hordeum vulgare L . Proc. Japan. Acad. , 54 : 469 – 473 .
  • Webb , J. 1975 . “ Polynuclear iron (III) proteins ” . In Techniques and Topics in Bioinorganic Chemistry , Edited by: McAuliffe , C.A. 271 – 304 . London : Macmiilan .

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