Quinoprotein (2,7,9-tricarboxy-1H-pyrrolo-[2,3-f]quinoline-4,5-dione quinone form (PQQ)-containing) ethanol dehydrogenase (EDH) from Pseudomonas aeruginosa ATCC 17933 was purified to homogeneity. EDH has an alpha 2 beta 2 configuration and subunits comparable in size to those of methanol dehydrogenase (MDH). Compared with other PQQ-containing dehydrogenases, Ca2+ is rather loosely bound and it seems necessary for PQQ binding and stability of EDH. Two soluble cytochromes c were detected in extracts from ethanol-grown cells and both were purified. One of these has an alpha-band at 551 nm for its reduced form, the oxidized form being an excellent electron acceptor for the semiquinone form of EDH. Since this cytochrome is quite different from the already known cytochrome c551 (operating in nitrate respiration) of this organism, it is indicated here as cytochrome cEDH. Comparison of the N-terminal amino acid sequence of cytochrome cEDH with the complete sequence of cytochrome cL (the electron acceptor of MDH), cytochrome cH (the electron acceptor of cytochrome cL) and cytochrome c551 revealed some similarity only to internal stretches of amino acids of the last two. The other soluble cytochrome appeared to be the already-known cytochrome c556. Since it was not an electron acceptor for cytochrome cEDH (neither for EDH), cytochrome cH is lacking in the quinoprotein-EDH-ethanol oxidation system of P. aeruginosa. It seems, therefore, that the respiratory chains for MDH and EDH are different.

A soluble cytochrome b was purified from Acinetobacter calcoaceticus L.M.D. 79.41. On the basis of the alpha-band maximum of a reduced preparation, measured at 25 degrees C, it is designated as cytochrome b-562. This cytochrome is a basic monomeric protein (pI 10.2; Mr 18,000), containing one protohaem group per molecule. The reduced form, at 25 degrees C, showed absorption bands at 428, 532 and 562 nm. At 77 K the alpha-band shifted to 560 nm (with a shoulder at 558 nm). The reduced cytochrome did not react with CO. Cytochrome b-562 is most probably (loosely) attached to the outside of the cytoplasmic membrane, since substantial amounts of it, equimolar to quinoprotein glucose dehydrogenase (GDH), were present in the culture medium when cells were grown in the presence of low concentrations of Triton X-100. The midpoint potential at pH 7.0 was found to be +170 mV, a value that was lowered to +145 mV by the presence of GDH. Since the GDH was shown to have a midpoint potential of +50 mV, cytochrome b-562 could function as the natural primary electron acceptor. Arguments to substantiate this view and to propose a role of ubiquinone-9 as electron acceptor for cytochrome b-562 are presented.

Hyphomicrobium X, grown on methanol with O2 or nitrate as electron acceptor, contains two major soluble cytochromes c. These were isolated in electrophoretically homogeneous form. They are related to cytochromes c already described for other methylotrophic bacteria and designated cytochromes cH and cL (properties indicated in that order) in view of the following characteristics: absorption maxima of the reduced forms (414, 520 and 551 nm and 414, 520 and 550 nm); molar absorption coefficients of the alpha-bands (23,700 M-1.cm-1 and 21,600 M-1.cm-1); maxima of the alpha-bands (no splitting) at 77 K (547.6 nm and 548.5 nm); Mr values of the native proteins (15,000 and 19,500); pI values (7.4 and 7.5, and 4.3); midpoint potentials at pH 7.0 (+292 mV and +270 mV). Both were monomers containing 1 haem c group per protein molecule, the oxidized forms binding cyanide at high pH. Autoreduction also occurred at high pH but at a rate significantly lower than that reported for other ferricytochromes c. On the other hand, the reverse situation applies to the reduction of ferricytochrome cL by reduced methanol dehydrogenase, the reduction occurring instantaneously at pH 7 but much more slowly at pH 9 (ferricytochrome cH was reduced at a 7-fold lower rate, but the rates at pH 7 and 9 were similar). Insignificant reduction was observed with cyclopropanol-inactivated enzyme or with enzyme in the presence of EDTA. In view of the dissimilarities, it is concluded that different mechanisms operate in the autoreduction of ferricytochrome cL and in its reduction by reduced methanol dehydrogenase.