2002
DOI: 10.1104/pp.005009
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Revisiting the Metal-Binding Chemistry of Nicotianamine and 2′-Deoxymugineic Acid. Implications for Iron Nutrition in Strategy II Plants

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Cited by 34 publications
(38 citation statements)
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“…Thus nicotianamine plays a crucial role in the movement of transition metal ions across various membrane barriers, such as the loading of phloem in the leaf [2,7,8,21,[23][24][25][26]48]. It is also proposed that complexation of iron by NA suppresses oxidative damage from Fenton chemistry associated with redox cycling between Fe 3+ and Fe 2+ [41,49].…”
Section: Introductionmentioning
confidence: 96%
“…Thus nicotianamine plays a crucial role in the movement of transition metal ions across various membrane barriers, such as the loading of phloem in the leaf [2,7,8,21,[23][24][25][26]48]. It is also proposed that complexation of iron by NA suppresses oxidative damage from Fenton chemistry associated with redox cycling between Fe 3+ and Fe 2+ [41,49].…”
Section: Introductionmentioning
confidence: 96%
“…Especially, NA has been investigated extensively in the last years as a candidate ligand for transport of iron and other metals, but the mechanistic details of respective processes are still under discussion. In particular, the importance and respective stabilities of ferrous and ferric NA species in planta is not completely clear [13][14][15] …”
mentioning
confidence: 99%
“…Recent reports uncovered that inside the vacuole, NA functions in Zn chelation (Haydon et al, 2012) and that the complex Zn-NA occurs in the phloem sap (Nishiyama et al, 2012). Inside the phloem, which has neutral pH values, the stability of the Fe-NA complexes seems optimal, and it was proposed that inside the phloem sap NA might chelate Fe (von Wiren et al, 1999;Reichman and Parker, 2002;Weber et al, 2006;Rellán-Alvarez et al, 2008). NA prevents Fe precipitation and promotes the delivery of Fe to its target sites (Becker et al, 1995), and in addition, it minimizes Fe toxicity as the chelation prevents radical production via the Fenton reaction .…”
Section: Introductionmentioning
confidence: 99%
“…One of the most effective strategies to combat human malnutrition is breeding major staple food crops enriched in bio-available micronutrients. The metal chelator and nonproteinogenic amino acid nicotianamine (NA) is known to bind a range of metal ions, including Fe 2+ , Fe 3+ , and Zn 2+ (Anderegg and Ripperger, 1989;Scholz et al, 1992;von Wiren et al, 1999;Reichman and Parker, 2002;Schmiedeberg et al, 2003;Weber et al, 2006;Rellán-Alvarez et al, 2008;Nishiyama et al, 2012). NA promotes high Fe content and Fe bioavailability in cereal grains (Lee et al, 2009;Zheng et al, 2010).…”
Section: Introductionmentioning
confidence: 99%