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Literature DB >> 33692352

Development of a mugineic acid family phytosiderophore analog as an iron fertilizer.

Motofumi Suzuki¹, Atsumi Urabe², Sayaka Sasaki², Ryo Tsugawa², Satoshi Nishio², Haruka Mukaiyama², Yoshiko Murata³, Hiroshi Masuda^4,5, May Sann Aung^4,5, Akane Mera¹, Masaki Takeuchi², Keijo Fukushima², Michika Kanaki⁶, Kaori Kobayashi⁶, Yuichi Chiba⁷, Binod Babu Shrestha², Hiromi Nakanishi⁷, Takehiro Watanabe³, Atsushi Nakayama², Hiromichi Fujino², Takanori Kobayashi⁴, Keiji Tanino⁸, Naoko K Nishizawa^4,7, Kosuke Namba⁹.

Abstract

Iron (Fe) is an essential nutrient, but is poorly bioavailable because of its low solubility in alkaline soils; this leads to reduced agricultural productivity. To overcome this problem, we first showed that the soil application of synthetic 2'-deoxymugineic acid, a natural phytosiderophore from the Poaceae, can recover Fe deficiency in rice grown in calcareous soil. However, the high cost and poor stability of synthetic 2'-deoxymugineic acid preclude its agricultural use. In this work, we develop a more stable and less expensive analog, proline-2'-deoxymugineic acid, and demonstrate its practical synthesis and transport of its Fe-chelated form across the plasma membrane by Fe(III)•2'-deoxymugineic acid transporters. Possibility of its use as an iron fertilizer on alkaline soils is supported by promotion of rice growth in a calcareous soil by soil application of metal free proline-2'-deoxymugineic acid.

Entities: CellLine Chemical Disease Gene Species

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Year: 2021 PMID： 33692352 PMCID： PMC7946895 DOI： 10.1038/s41467-021-21837-6

Source DB: PubMed Journal: Nat Commun ISSN： 2041-1723 Impact factor: 14.919

21 in total

1. Hydroxylated phytosiderophore species possess an enhanced chelate stability and affinity for iron(III).

Authors: N von Wirén; H Khodr; R C Hider
Journal: Plant Physiol Date: 2000-11 Impact factor: 8.340

2. Maize yellow stripe1 encodes a membrane protein directly involved in Fe(III) uptake.

Authors: C Curie; Z Panaviene; C Loulergue; S L Dellaporta; J F Briat; E L Walker
Journal: Nature Date: 2001-01-18 Impact factor: 49.962

3. Evidence for a specific uptake system for iron phytosiderophores in roots of grasses.

Authors: V Römheld; H Marschner
Journal: Plant Physiol Date: 1986-01 Impact factor: 8.340

4. Iron Inefficiency in Maize Mutant ys1 (Zea mays L. cv Yellow-Stripe) Is Caused by a Defect in Uptake of Iron Phytosiderophores.

Authors: N. Von Wiren; S. Mori; H. Marschner; V. Romheld
Journal: Plant Physiol Date: 1994-09 Impact factor: 8.340

Review 5. Biodegradable chelating agents for industrial, domestic, and agricultural applications--a review.

Authors: Isabel S S Pinto; Isabel F F Neto; Helena M V M Soares
Journal: Environ Sci Pollut Res Int Date: 2014-02-20 Impact factor: 4.223

6. Molecular evidence for phytosiderophore-induced improvement of iron nutrition of peanut intercropped with maize in calcareous soil.

Authors: Hongchun Xiong; Yusuke Kakei; Takanori Kobayashi; Xiaotong Guo; Mikio Nakazono; Hirokazu Takahashi; Hiromi Nakanishi; Hongyun Shen; Fusuo Zhang; Naoko K Nishizawa; Yuanmei Zuo
Journal: Plant Cell Environ Date: 2013-04-25 Impact factor: 7.228

7. The rice bHLH protein OsIRO2 is an essential regulator of the genes involved in Fe uptake under Fe-deficient conditions.

Authors: Yuko Ogo; Reiko Nakanishi Itai; Hiromi Nakanishi; Takanori Kobayashi; Michiko Takahashi; Satoshi Mori; Naoko K Nishizawa
Journal: Plant J Date: 2007-06-08 Impact factor: 6.417

8. Three rice nicotianamine synthase genes, OsNAS1, OsNAS2, and OsNAS3 are expressed in cells involved in long-distance transport of iron and differentially regulated by iron.

Authors: Haruhiko Inoue; Kyoko Higuchi; Michiko Takahashi; Hiromi Nakanishi; Satoshi Mori; Naoko K Nishizawa
Journal: Plant J Date: 2003-11 Impact factor: 6.417

9. 2'-Deoxymugineic acid promotes growth of rice (Oryza sativa L.) by orchestrating iron and nitrate uptake processes under high pH conditions.

Authors: Ryoichi Araki; Kayoko Kousaka; Kosuke Namba; Yoshiko Murata; Jun Murata
Journal: Plant J Date: 2014-12-16 Impact factor: 6.417

10. The helical propensity of the extracellular loop is responsible for the substrate specificity of Fe(III)-phytosiderophore transporters.

Authors: Erisa Harada; Kenji Sugase; Kosuke Namba; Yoshiko Murata
Journal: FEBS Lett Date: 2016-11-23 Impact factor: 4.124