The reconstitutive ability of the isolated prosthetic group of methanol dehydrogenase with the apoenzyme of glucose dehydrogenase and the results of electron spin resonance measurements suggest that the prosthetic group has not been modified during the isolation. This result, and the properties of the directly isolated prosthetic group and derivatives, confirm the suggestion that its structure is 2,7,9-tricarboxy-1 H-pyrrolo[2,3lf]quinoline-4,5-dione.From the activity shown by derivatives of the prosthetic group and of structural analogues in the apoenzyme test it is concluded that the o-quinone structure is essential for activity. Hence the trivial name pyrrolo-quinoline quinone would be appropriate. The testing of the analogues also shows that the pyrrolo ring and the 9-carboxylic acid group are not essential for activity as they can be replaced by a pyridinol ring and a 9-hydroxy group respectively.The determination of the molar absorption coefficient of the prosthetic group (18400 M -l cm-' at 249 nm) enables its quantitative analysis. Thus it could be established that methanol dehydrogenase contains one prosthetic group per enzyme molecule. The consequences of this result in relation to already known properties of this 'quinoprotein' dehydrogenase are discussed.As was previously shown, the prosthetic group of methanol dehydrogenase is a novel, nitrogen-containing o-quinone [I -41. Recently, based on X-ray diffraction analysis of a degradation product, a chemical structure was proposed [5]. However, no evidence was presented for the presence of the o-quinone group in the proposed structure of the prosthetic group. Moreover, the question of whether the proposed structure represents that of the prosthetic group in situ remained unanswered.In this paper, the structure of the directly isolated prosthetic group is described. Furthermore, some chemical and physical properties which are valuable for its characterization and estimation, are reported.The reconstitutive ability of the prosthetic group could be investigated as we found that glucose dehydrogenase from Acinetobacter culcoaceticus contains the same prosthetic group and a suitable apoenzyme could be prepared [6]. Derivatives of the prosthetic group and structural analogues were tested with the apoenzyme system in order to see which structuralAbbreviations. ESR, electron spin resonance; NMR, nuclear magnetic resonance; compound Ia, 2,7,9-tricarboxy-lH-pyrrolo [2, compound IIa, 2,7,fl quinoline-4,5-dihydro-4,5-diol.
