Mixed ligand complexes of iron with cyanide and phenanthroline as new probes of metalloprotein electron transfer reactivity. Analysis of reactions involving rusticyanin from Thiobacillus ferrooxidans.

R Blake,K.J White,E.A Shute

doi:10.1016/s0021-9258(18)54983-8

R Blake, K.J White + Show 1 more

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https://doi.org/10.1016/s0021-9258(18)54983-8

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Abstract

A family of 12 different mixed ligand complexes of iron with cyanide and substituted 1,10-phenanthroline was prepared. The electron transfer properties of each reagent were systematically manipulated by varying the substituent(s) on the aromatic ring system and the stoichiometry of the two types of ligands in the complex. Values for the standard reduction potentials of each member of this family of electron transfer reagents were determined and spanned from 500 to 900 mV. The one-electron transfer reactions between each of these substitution-inert reagents and the high potential blue copper protein, rusticyanin, from Thiobacillus ferrooxidans were studied by stopped flow spectrophotometry under acidic conditions. For comparison with the protein results, the kinetics of electron transfer between each of these reagents and sulfatoiron were also investigated. The Marcus theory of electron transfer was successfully applied to this set of kinetic data to demonstrate that 10 of the 12 reagents had equal kinetic access to the redox center of the rusticyanin and utilized the same reaction pathway for electron transfer. The utility of these synthetic electron transfer reagents in characterizing the electron transfer properties of very high potential, redox-active metalloproteins is illustrated.

Highlights

A family of 12 different mixed ligand complexes of isolated from Thiobacillusferrooxidans, an acidophilic chemiron with cyanide and substituted 1,lO-phenanthroline was prepared
The Marcus theory of electron transfer has been widely employed to deduce, from the relevantkinetic and aromatic diimine and varying the stoichiometry of the substituted phenanthroline in thfienal organoiron complex, a series of substitution-inert electron transfer reagents were constructed with reduction potentials from 500 to 900 mV
The family of electron transfer reagents described could prove useful in probing the electron transfer reactivity of this novel class of high potential respiratory proteins

Summary

EXPERIMENTALPROCEDURES AND RESULTS’

Tallic complexes and metalloproteins (13-15, and references Absorbance Properties-Both the redox potential and the therein). The value of each reduction potential determined from the Electron Transfer with Rusticyanin-The object of these kineticstudies described abovewas verified by inde- experiments was to obtain detailed kinetic data on the onependent equilibrium experiments that employed soluble iron electron transfer reactions between cyano(1,lO-phenanthroand thecyano(1,lO-phenanthro1ine)ironcomplex of interest. Each datum represents to each of the bimolecular electron transfer reactions between rusticyanin and individual cyano(1,lO-phenanthro1ine)iron complexes that was too rapid to be investigated by direct mixing experiments in the stopped flow spectrophotometer.

DISCUSSION

The changes in the Oxidation state Of rusticyanin were monitored at

RESULTS