Amavadin is a vanadium-containing anion found in three species of poisonous Amanita mushrooms: A. muscaria, A. regalis, and A. velatipes. Amavadin was first isolated and identified in 1972 by Kneifel and Bayer. This anion, which appears as a blue solution, is an eight-coordinate vanadium complex. A Ca<sup>2+</sup> cation is often used to crystallize amavadin to obtain a good quality X-ray diffraction. Oxidized amavadin can be isolated as its PPh<sub>4</sub><sup>+</sup> salt. The oxidized form contains vanadium(V), which can be used to obtain an NMR spectrum.
The ligand found in amavadin was first synthesized in 1954. Amavadin contains vanadium(IV). Initially, amavadin was thought to have a vanadyl, VO<sup>2+</sup>, center. In 1993, it was discovered by crystallographic characterization that amavadin is not a vanadyl ion compound. Instead, it is an octacoordinated vanadium(IV) complex. This complex is bonded to two tetradentate ligands derived from N-hydroxyimino-2,2'-dipropionic acid, H<sub>3</sub>(HIDPA), ligands. The ligands coordinate through the nitrogen and the three oxygen centers.
Amavadin is a C<sub>2</sub>-symmetric anion with a 2â charge. The twofold axis bisects the vanadium atom perpendicular to the two NO ligands. The anion features five chiral centers, one at vanadium and the four carbon atoms having S stereochemistry. There are two possible diastereomers for the ligands, (S,S)-(S,S)-àand (S,S)-(S,S)-ÃÂ.
The formation of amavadin begins with the formation of two tetradentate ligands.
The biological function of amavadin is still unknown, yet it has been thought that it uses H<sub>2</sub>O<sub>2</sub> and acts as a peroxidase to aid the regeneration of damaged tissues. Amavadin may serve as a toxin for protection of the mushroom.