The molybdenum cofactor (Moco) has been found to be associated with a
diverse set of redox enzymes and contains a mononuclear molybdenum or
tungsten ion co-ordinated by the dithiolene sulfurs of one or two moly
bdopterin {a pterin [2-amino-4(1H)-pteridinone] derivative} ligands. T
he remaining co-ordination sites on the metal are occupied by non-prot
ein oxygen or sulfur species and, occasionally, amino acid side chains
. The molybdopterin ligand can exhibit oxidation state-dependent chang
es in structure and metal co-ordination, and may also interact with ot
her redox groups in the enzyme. These observations suggest that the mo
lybdopterin may participate in the various electron-transfer reactions
associated with the catalytic mechanism of Moco containing enzymes.