A mutant gene, which we have designated AdhnB, codes for a defective form of the enzyme alcohol dehydrogenase in Drosophila melanogaster. We show that the polypeptide encoded by AdhnB is approximately 2000 Mr smaller than the protein synthesized under the direction of the wild-type alcohol dehydrogenase gene. In contrast, the alcohol dehydrogenase mRNA produced by both genes is the same size. We cloned and sequenced a portion of the protein-coding region of AdhnB and compared it to the same region in the wild-type gene. We found a single base substitution: a change of the TGG tryptophan codon at amino acid 235 to a TGA termination codon. This nonsense mutation accounts for the observed reduction in size of the alcohol dehydrogenase polypeptide. In further studies, we found that the steady-state levels of alcohol dehydrogenase mRNA in flies carrying the AdhnB gene and the wild-type alcohol dehydrogenase gene were indistinguishable. However, the steady-state level of alcohol dehydrogenase polypeptide was reduced to 1% of wild-type levels in flies with the AdhnB gene. Moreover, the rate of alcohol dehydrogenase synthesis in mutant flies was reduced to 50% of that found in wild type. The aberration in AdhnB thus affects both the rate of synthesis and the rate of degradation of the alcohol dehydrogenase peptide. AdhnB is the first reported nonsense mutant in Drosophila.