The role of blue copper proteins in the oxidation of methylamine by an obligate methylotroph

Author:

Lawton S A,Anthony C

Abstract

Organism 4025, an obligate methylotroph, when grown on methylamine in the presence of a high concentration of copper, contained high concentrations of methylamine dehydrogenase and two blue copper proteins, amicyanin and an azurin-type protein; these were purified to homogeneity and characterized. The methylamine dehydrogenase is a basic protein (pI 8.8) and consists of light and heavy subunits (Mr 14100 and 43000; total Mr 112000). This dehydrogenase differed slightly from other methylamine dehydrogenases in its absorption spectrum and in its lack of thermal stability. Amicyanin, the more abundant blue copper protein, had an Mr of 11500, a midpoint redox potential of 294mV at pH 7.0, and a much lower isoelectric point (pI5.3) than other amicyanins. Its absorption maximum was 620 nm (7-24 nm higher than those of other amicyanins); its absorption coefficient (at 620 nm) was 3.8 mM-1 X cm-1. The ‘azurin’ (6% of the blue copper protein) had an Mr of 12500, a midpoint redox potential of 323 mV and a high isoelectric point (pI 9.4). Its absorption maximum was 620 nm, the absorption coefficient (16 mM-1 X cm-1) at this wavelength being considerably greater than that of any blue copper protein described previously. The partially-purified soluble cytochromes cH and cL were similar to those of other methylotrophs. The interactions of the purified redox proteins were investigated in order to elucidate their role in methylamine oxidation. Methylamine dehydrogenase was able to donate electrons only to amicyanin, the rate of reaction being 2.04 mmol/min per mumol of methylamine dehydrogenase; this is sufficient to account for the rate of respiration in whole bacteria. The blue copper proteins were able to react rapidly with each other and with both the soluble cytochromes c.

Publisher

Portland Press Ltd.

Subject

Cell Biology,Molecular Biology,Biochemistry

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