A protocol has been developed which permits the purification of a membrane-associated methane-oxidizing complex from Methylococcus capsulatus (Bath). This complex has approximately 5 fold higher specific activity than any purified particulate methane mono-oxygenase (pMMO) previously reported from M. capsulatus (Bath). This efficiently functioning methane-oxidizing complex consists of the pMMO hydroxylase (pMMOH) and an unidentified component we have assigned as a potential pMMO reductase (pMMOR). The complex was isolated by solubilizing intracytoplasmic membrane preparations containing the high yields of active membrane-bound pMMO (pMMO(m)), using the non-ionic detergent dodecyl-beta-D-maltoside, to yield solubilized enzyme (pMMO(s)). Further purification gave rise to an active complex (pMMO(c)) that could be resolved (at low levels) by ion-exchange chromatography into two components, the pMMOH (47, 27 and 24 kDa subunits) and the pMMOR (63 and 8 kDa subunits). The purified complex contains two copper atoms and one non-haem iron atom/mol of enzyme. EPR spectra of preparations grown with (63)Cu indicated that the copper ion interacted with three or four nitrogenic ligands. These EPR data, in conjunction with other experimental results, including the oxidation by ferricyanide, EDTA treatment to remove copper and re-addition of copper to the depleted protein, verified the essential role of copper in enzyme catalysis and indicated the implausibility of copper existing as a trinuclear cluster. The EPR measurements also demonstrated the presence of a tightly bound mononuclear Fe(3+) ion in an octahedral environment that may well be exchange-coupled to another paramagnetic species.
Laccase is a multicopper oxidase that contains four Cu ions, one type 1 (T1), one type 2 (T2), and a coupled binuclear type 3 Cu pair (T3). The T2 and T3 centers form a trinuclear Cu cluster that is the active site for O2 reduction to H2O. A combination of spectroscopic and DFT studies on a derivative where the T1 Cu has been replaced by a spectroscopically innocent Hg2+ ion has led to a detailed geometric and electronic structure description of the resting trinuclear Cu cluster, complementing crystallographic results. The nature of the T2 Cu ligation has been elucidated; this site is three-coordinate with two histidines and a hydroxide over its functional pH range (stabilized by a large inductive effect, cluster charge, and a hydrogen-bonding network). Both the T2 and T3 Cu centers have open coordination positions oriented toward the center of the cluster. DFT calculations show that the negative protein pocket (four conserved Asp/Glu residues within 12 A) and the dielectric of the protein play important roles in the electrostatic stability and integrity of the highly charged, coordinatively unsaturated trinuclear cupric cluster. These tune the ligand binding properties of the cluster, leading to its high affinity for fluoride and its coordination unsaturation in aqueous media, which play a key role in its O2 reactivity.
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