Acetobacter methanolicus MB58 can grow on methanol. Since this substrate exhibits to be energy deficient there must be a chance to oxidize methanol to CO2 merely for purpose of energy generation. For the assimilation of methanol the FBP variant of the RuMP pathway is used. Hence methanol can be oxidized cyclically via 6-phosphogluconate. Since Acetobacter methanolicus MB58 possesses all enzymes for a linear oxidation via formate the question arises which of both sequences is responsible for generation of the energy required. In order to clarify this the linear sequence was blocked by inhibiting the formate dehydrogenase with hypophosphite and by mutagenesis inducing mutants defective in formaldehyde or formate dehydrogenase. It has been shown that the linear dissimilatory sequence is indispensable for methylotrophic growth. Although the cyclic oxidation of formaldehyde to CO2 has not been influenced by hypophosphite and with mutants both the wild type and the formaldehyde dehydrogenase defect mutants cannot grown on methanol. The cyclic oxidation of formaldehyde does not seem to be coupled to a sufficient energy generation, probably it operates only detoxifying and provides reducing equivalents for syntheses. The regulation between assimilation and dissimilation of formaldehyde in Acetobacter methanolicus MB58 is discussed.