ABSTRACT
Prior studies showed that differences in alcohol dehydrogenase (ADH) activity across genotypes of Drosophila are decisive for the outcome of selection by ethanol. In the present paper, the effect on ADH activity and egg-to-adult survival of combinations of ethanol, propan-2-ol, and acetone in naturally occurring concentrations is examined. Propan-2-ol is converted into acetone by ADH in vitro. Acetone is considered a competitive inhibitor of ethanol for the ADH enzymes. The melanogaster-ADH-S allozyme is two times more sensitive towards inhibition by acetone than either simulans-ADH or melanogaster-ADH-F. The physiological implications of these in vitro differences for larvae were studied in short-term in vivo and long-term exposure experiments. No major differences in acetone accumulation or fitness parameters were found between the strains in response to ecologically relevant concentrations of acetone or propan-2-ol. Ethanol, however, strongly decreased egg-to-pupal survival in both Drosophila simulans strains and increased developmental time in four out of the five strains tested. Therefore, under physiological conditions only ethanol was shown to act as a selective agent on the ADH polymorphism during egg-to-pupa development in Drosophila.