Reactions of direct formaldehyde oxidation to CO2 are non-essential for energy supply of yeast methylotrophic growth

Mutants of the methylotrophic yeast Hansenula polymorpha deficient in NAD-dependent formaldehyde or formate dehydrogenases have been isolated. They were more sensitive for exogenous methanol but retained the ability for methylotrophic growth. In the medium with methanol the growth yields of the mutant 356–83 deficient in formaldehyde dehydrogenase and of the wild-type strain were identical (0.34 g cells/g methanol) under chemostat cultivation. These results indicate that enzymes of direct formaldehyde oxidation are not indispensable for methylotrophic growth. At the same time inhibition of tricarboxylic acid cycle has resulted in suppression of growth in the media with multicarbon nonfermentable substrates such as glycerol, succinate, ethanol and dihydroxyacetone as well as with methanol, but not with glucose. In the experiments with the wild-type strain H. polymorpha it has been shown that citrate and dihydroxyacetone inhibit the radioactivity incorporation from ¹⁴C-methanol into CO₂. All obtained data indicate that for the dissimilation of methanol and the supplying of energy for methylotrophic growth, the functioning of tricarboxylic acid cycle reactions as oppossed to those of direct formaldehyde oxidation is essential.