Dithiolene complexes and the nature of molybdopterin

The development of the coordination chemistry of dithiolene ligands is summarised, together with a consideration of the electronic structure of complexes of these ‘non-innocent’ ligands. This information provides a context for a consideration of the role of dithiolenes in natural systems, i.e. as th...

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Bibliographic Details
Published in:Coordination chemistry reviews 2010-07, Vol.254 (13), p.1570-1579
Main Authors: Hine, Freya J., Taylor, Adam J., Garner, C. David
Format: Article
Language:English
Subjects:
Dithiolenes
Enzymes
Molybdenum
Molybdopterin
Tungsten
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Summary:The development of the coordination chemistry of dithiolene ligands is summarised, together with a consideration of the electronic structure of complexes of these ‘non-innocent’ ligands. This information provides a context for a consideration of the role of dithiolenes in natural systems, i.e. as the ligand that binds molybdenum (or tungsten) at the catalytic centre of an extensive series of enzymes. These enzymes catalyse the transfer of an oxygen atom to or from the substrate: e.g. the sulfite oxidases catalyse the conversion of sulfite to sulfate and the nitrate reductases catalyse the conversion of nitrate to nitrite. The nature of the catalytic centres of several of these enzymes has been determined and each involves one or two ‘molybdopterin’ (MPT) cofactors bound to a mononuclear metal centre via their dithiolene group. The biosynthesis of MPT is described and, given its nature, possible roles for this moiety in the function of the oxotransferase enzymes are discussed. The review concludes with a consideration of the coordination chemistry that has been stimulated by the present knowledge of the nature and function of the catalytic centres of these enzymes.
ISSN:0010-8545
1873-3840
DOI:10.1016/j.ccr.2010.01.017