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Journal of Plant Nutrition Volume 11, 1988 - Issue 6-11: Iron nutrition and interactions in plants
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Phytosiderophores and organics secreted by roots

Mugineic acid‐family phytosiderophores in root‐secretions of barley, corn and sorghum varieties

Shigenao Kawai Faculty of Agriculture, Iwate University, Ueda 3, Morioka, 020, Japan
,
Sei‐ichi Takagi Faculty of Agriculture, Iwate University, Ueda 3, Morioka, 020, Japan
&
Yoshimasa Sato Faculty of Agriculture, Iwate University, Ueda 3, Morioka, 020, Japan
Pages 633-642 | Published online: 21 Nov 2008

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Tadakatsu Yoneyama. (2021) Iron delivery to the growing leaves associated with leaf chlorosis in mugineic acid family phytosiderophores-generating graminaceous crops. Soil Science and Plant Nutrition 67:4, pages 415-426.
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Molla Rahman Shaibur, Nobuyuki Kitajima, Reiko Sugawara, Toshihito Kondo, S. M. Imamul Huq & Shigenao Kawai. (2009) Effect of arsenic on phytosiderophores and mineral nutrition of barley seedlings grown in iron-depleted medium. Soil Science and Plant Nutrition 55:2, pages 283-293.
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Antoine Ladouceur, Fumihito Akiha & Shigenao Kawai. (2008) Effect of supplied phytosiderophore on 59Fe absorption and translocation in Fe-deficient barley grown hydroponically in low phosphorus media. Soil Science and Plant Nutrition 54:4, pages 560-565.
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Molla Rahman Shaibur, Nobuyuki Kitajima, Reiko Sugawara, Toshihito Kondo, S.M. Imamul Huq & Shigenao Kawai. (2008) Physiological and Mineralogical Properties of Arsenic-Induced Chlorosis in Barley Seedlings Grown Hydroponically. Journal of Plant Nutrition 31:2, pages 333-353.
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Khurram Bashir & Naoko K. Nishizawa. (2006) Deoxymugineic Acid Synthase. Plant Signaling & Behavior 1:6, pages 290-292.
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DirkV. Charlson & RandyC. Shoemaker. (2006) Evolution of Iron Acquisition in Higher Plants. Journal of Plant Nutrition 29:6, pages 1109-1125.
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Tsunehiro Yoshida, Shigenao Kawai & Seiichi Takagi. (2004) Detection of the regions of phytosiderophore release from barley roots. Soil Science and Plant Nutrition 50:7, pages 1111-1114.
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Shah Alam, Fumihito Akiha, Shigeru Kamei & Shigenao Kawai. (2003) Mechanism of potassium alleviation of manganese phytotoxicity in barley evaluated by short-term absorption of manganese-54 and iron-59. Soil Science and Plant Nutrition 49:4, pages 485-492.
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Guillermo Carrillo‐Castañeda, Juana Juárez Muñoz, José Ramón Peralta‐Videa, Eduardo Gomez & Jorge L. Gardea‐Torresdey. (2002) Plant Growth‐Promoting Bacteria Promote Copper and Iron Translocation from Root to Shoot in Alfalfa Seedlings. Journal of Plant Nutrition 26:9, pages 1801-1814.
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Shigenao Kawai, Shigeru Kamei, Yuuki Matsuda, Ryoji Ando, Seiichi Kondo, Ayako Ishizawa & Shah Alam. (2001) Concentrations of iron and phytosiderophores in xylem sap of iron-deficient barley plants. Soil Science and Plant Nutrition 47:2, pages 265-272.
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Shah Alam, Shigeru Kamei & Shigenao Kawai. (2001) Metal micronutrients in xylem sap of iron-deficient barley as affected by plant-borne, microbial, and synthetic metal chelators. Soil Science and Plant Nutrition 47:1, pages 149-156.
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Kalyan Singh, Tetsuo Sasakuma, Naimatullah Bughio, Michiko Takahashi, Hiromi Nakanishi, Etsuro Yoshimura, NaokoK. Nishizawa & Satoshi Mori. (2000) Ability of ancestral wheat species to secrete mugineic acid family phytosiderophores in response to iron deficiency. Journal of Plant Nutrition 23:11-12, pages 1973-1981.
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Xiaoe Yang, Guirong Wang, Chengdong Zhang & Volker Römheld. (2000) Characteristics of iron uptake in Ni‐tolerant mutant and wild‐type of ryegrass. Journal of Plant Nutrition 23:11-12, pages 1867-1876.
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B. Erenoglu, S. Eker, I. Cakmak, R. Derici & V. Römheld. (2000) Effect of iron and zinc deficiency on release of phytosiderophores in barley cultivars differing in zinc efficiency. Journal of Plant Nutrition 23:11-12, pages 1645-1656.
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Syuntaro Hiradate & Katsuhiro Inoue. (2000) Dissolution of iron by mugineic acid from soils and comparison with DTPA soil test. Soil Science and Plant Nutrition 46:3, pages 673-681.
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Shah Alam, Shigeru Kamei & Shigenao Kawai. (2000) Phytosiderophore release from manganese‐induced iron deficiency in barley. Journal of Plant Nutrition 23:8, pages 1193-1207.
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Gunter Neumann, Charlotte Haake & Volker Römheld. (1999) Improved HPLC method for determination of phytosiderophores in root washings and tissue extracts. Journal of Plant Nutrition 22:9, pages 1389-1402.
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Syuntaro Hiradate & Katsuhiro Inoue. (1998) Dissolution of iron from iron (Hydr)Oxides by mugineic acid. Soil Science and Plant Nutrition 44:3, pages 305-313.
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Syuntaro Hiradate & Katsuhiro Inoue. (1996) Determination of Mugineic Acid, 2′-Deoxymugineic Acid, 3-Hydroxymugineic Acid, and Their Iron Complexes by Ion-Pair HPLC and Colorimetric Procedures. Soil Science and Plant Nutrition 42:3, pages 659-665.
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Jian Feng Ma & Kyosuke Nomoto. (1994) Biosynthetic pathways of 3-epihydroxymugineic acid and 3-hydroxymugineic acid in gramineous plants. Soil Science and Plant Nutrition 40:2, pages 311-317.
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Smail Cakmak, KemalY. Gülüt, Horst Marschner & RobinD. Graham. (1994) Efect of zinc and iron deficiency on phytos1derophore release in wheat genotypes differing in zinc efficiency. Journal of Plant Nutrition 17:1, pages 1-17.
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Kalyan Singh, M. Chino, N. K. Nisizawa, S. Goto, T. Nakanishi, S. Takagi & S. Mori. (1992) Iron extraction efficacy of plant borne mugineic acid family phytosiderophores in indian calcareous soils. Journal of Plant Nutrition 15:10, pages 1625-1645.
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Shigeriao Kawai, Seiichi Takagi & Kunihiko Ojima. (1992) Application of phytosiderophore to plant cell cultures and production of phytosiderophore by iron‐deficiency stressed plant cell culture. Journal of Plant Nutrition 15:10, pages 1613-1624.
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BryanG. Hopkins, VonD. Jolley & JohnC. Brown. (1992) Plant utilization of iron solubilized by oat phytosiderophore. Journal of Plant Nutrition 15:10, pages 1599-1612.
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C. Mel Lytle & VonD. Jolley. (1991) Iron deficiency stress response of various c‐3 and c‐4 grain crop genotypes: Strategy II mechanism evaluated. Journal of Plant Nutrition 14:4, pages 341-361.
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VonD. Jolley & JohnC. Brown. (1991) Differential response of Fe‐efficient corn and Fe‐inefficient corn and oat to phytosiderophore released by Fe‐efficient Coker 227 oat. Journal of Plant Nutrition 14:1, pages 45-58.
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