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Title (Primary) Biostimulation by methanol enables the methylotrophic yeasts Hansenula polymorpha and Trichosporon sp. to reveal high formaldehyde biodegradation potential as well as to adapt to this toxic pollutant
Author Kaszycki, P.; Walski, T.; Hachicho, N.; Heipieper, H.J.;
Journal Applied Microbiology and Biotechnology
Year 2013
Department UBT;
Volume 97
Issue 12
Language englisch;
POF III (all) T41;
Keywords Methylotrophic yeast; Hansenula polymorpha; Trichosporon sp.; Membrane adaptation; Fatty acid unsaturati; n Nonconventional yeast; Formaldehyde biodegradation
UFZ wide themes RU3;
Abstract The methylotrophic yeasts Hansenula polymorpha and Trichosporon sp. revealed enhanced biodegradation capability of exogenously applied formaldehyde (Fd) upon biostimulation achieved by the presence of methanol, as compared to glucose. Upon growth on either of the above substrates, the strains proved to produce the activity of glutathione-dependent formaldehyde dehydrogenase—the enzyme known to control the biooxidative step of Fd detoxification. However, in the absence of methanol, the yeasts’ tolerance to Fd was decreased, and the elevated sensitivity was especially pronounced for Trichosporon sp. Both strains responded to the methanol and/or Fd treatment by increasing their unsaturation index (UI) at xenobiotic levels below minimal inhibitory concentrations. This indicated that the UI changes effected from the de novo synthesis of (poly) unsaturated fatty acids carried out by viable cells. It is concluded that the yeast cell response to Fd intoxication involves stress reaction at the level of membranes. Fluidization of the lipid bilayer as promoted by methanol is suggested as a significant adaptive mechanism increasing the overall fitness enabling to cope with the formaldehyde xenobiotic via biodegradative pathway of C1-compound metabolism.
ID 13518
Persistent UFZ Identifier https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=13518
Kaszycki, P., Walski, T., Hachicho, N., Heipieper, H.J. (2013):
Biostimulation by methanol enables the methylotrophic yeasts Hansenula polymorpha and Trichosporon sp. to reveal high formaldehyde biodegradation potential as well as to adapt to this toxic pollutant
Appl. Microbiol. Biotechnol. 97 (12), 5555 - 5564