Evidence that white-blood is a novel type of temperature-sensitive mutation resulting from temperature-dependent effects of a transposon insertion on formation of white transcripts.

We report results indicating that the temperature-sensitive white-blood (wbl) mutation has a novel molecular basis, involving the formation of RNA transcripts of the affected gene rather than the behavior of the polypeptide product. First, we show that the temperature-sensitive mutant phenotype of wbl correlates with (and presumably results from) a temperature-dependent effect on levels of the 2.6-kb polyadenylated white transcript. Second, DNA sequence analysis and other studies show that wbl is associated with the insertion into the second white intron of a previously uncharacterized retrotransposon (designated the blood transposon). We discuss the potential origins of the novel temperature-sensitive molecular phenotype of wbl and the prospects for exploiting wbl to engineer temperature-sensitive mutations in other genes.