Vanadate

Template:Short description

In chemistry, a vanadate is an anionic coordination complex of vanadium. Often vanadate refers to oxoanions of vanadium, most of which exist in its highest oxidation state of +5. The complexes Template:Chem2 and Template:Chem2 are referred to as hexacyanovanadate(III) and nonachlorodivanadate(III), respectively.

A simple vanadate ion is the tetrahedral orthovanadate anion, Template:Chem2 (which is also called vanadate(V)), which is present in e.g. sodium orthovanadate and in solutions of [[vanadium pentoxide|Template:Chem2]] in strong base (pH > 13^[1]). Conventionally this ion is represented with a single double bond, however this is a resonance form as the ion is a regular tetrahedron with four equivalent oxygen atoms.

Additionally a range of polyoxovanadate ions exist which include discrete ions and "infinite" polymeric ions.^[2] There are also vanadates, such as rhodium vanadate, Template:Chem2, which has a statistical rutile structure where the Template:Chem2 and Template:Chem2 ions randomly occupy the Template:Chem2 positions in the rutile lattice,^[3] that do not contain a lattice of cations and balancing vanadate anions but are mixed oxides.

In chemical nomenclature when vanadate forms part of the name, it indicates that the compound contains an anion with a central vanadium atom, e.g. ammonium hexafluorovanadate is a common name for the compound Template:Chem2 with the IUPAC name of ammonium hexafluoridovanadate(III).

Examples of oxovanadate ions

Some examples of discrete ions are

• Template:Chem2 "orthovanadate", tetrahedral.^[2]
• Template:Chem2 "pyrovanadate", corner-shared Template:Chem2 tetrahedra, similar to the dichromate ion^[2]
• Template:Chem2, cyclic with corner-shared Template:Chem2 tetrahedra^[4]
• Template:Chem2, cyclic with corner-shared Template:Chem2 tetrahedra^[5]
• Template:Chem2, corner shared Template:Chem2 tetrahedra^[6]
• Template:Chem2, ring.^[7]
• Template:Chem2 "decavanadate", edge- and corner-shared Template:Chem2 octahedra^[2]
• Template:Chem2
• Template:Chem2, fused Template:Chem2 octahedra ^[8]
• Template:Chem2^[9]

Some examples of polymeric "infinite" ions are

• Template:Chem/link in e.g. Template:Chem2, sodium metavanadate^[2]
• Template:Chem/link in Template:Chem2^[10]

In these ions vanadium exhibits tetrahedral, square pyramidal and octahedral coordination. In this respect vanadium shows similarities to tungstate and molybdate, whereas chromium however has a more limited range of ions.

Aqueous solutions

Dissolution of vanadium pentoxide in strongly basic aqueous solution gives the colourless Template:Chem2 ion. On acidification, this solution's colour gradually darkens through orange to red at around pH 7. Brown hydrated V2O5 precipitates around pH 2, redissolving to form a light yellow solution containing the Template:Chem2 ion. The number and identity of the oxyanions that exist between pH 13 and 2 depend on pH as well as concentration. For example, protonation of vanadate initiates a series of condensations to produce polyoxovanadate ions:^[2]

• pH 9–12: Template:Chem2, Template:Chem2
• pH 4–9: Template:Chem2, Template:Chem2, Template:Chem2
• pH 2–4: Template:Chem2, Template:Chem2

Pharmacological properties

Vanadate is a potent inhibitor of certain plasma membrane ATPases, such as Na⁺/K⁺-ATPase and Ca²⁺-ATPase (PMCA). Acting as a transition-state analog of phosphate, vanadate undergoes nucleophillic attack by water during phosphoryl transfer, essentially "trapping" P-type ATPases in their phosphorylated E2 state. ^[11][12] It also inhibits skeletal muscle actomyosin MgATPase activity^[13] and calcium activated force generation by actomyosin in the intact skeletal muscle contractile apparatus.^[14] However, it does not inhibit other ATPases, such as SERCA (sarco/endoplasmic reticulum Ca²⁺-ATPase) or mitochondrial ATPase.^[15][16][17]

References

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Template:Vanadium compounds