Phytate, an abundant molecule in eukaryotic cells, interacts strongly with inorganic cations and polyamines. This interaction is essential for determining the possible functions of this biomolecule. We present here the first solution and crystallographic study of the formation of phytate complexes in the Cu(II)–phytate–terpy and phytate–terpy (terpy = 2,20:60,200-terpyridine) systems.
The copper(II)-phytate-terpyridine ternary system: the first crystal structure showing the interaction of phytate with bivalent metal and ammonium cations / Nicolas Veiga; Julia Torres; Carla Bazzicalupi; Antonio Bianchi; Carlos Kremer. - In: CHEMICAL COMMUNICATIONS. - ISSN 1359-7345. - STAMPA. - 50:(2014), pp. 14971-14974. [10.1039/c4cc07226j]
The copper(II)-phytate-terpyridine ternary system: the first crystal structure showing the interaction of phytate with bivalent metal and ammonium cations.
BAZZICALUPI, CARLA;BIANCHI, ANTONIO;
2014
Abstract
Phytate, an abundant molecule in eukaryotic cells, interacts strongly with inorganic cations and polyamines. This interaction is essential for determining the possible functions of this biomolecule. We present here the first solution and crystallographic study of the formation of phytate complexes in the Cu(II)–phytate–terpy and phytate–terpy (terpy = 2,20:60,200-terpyridine) systems.
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