THE MOLECULAR THROUGH ECOLOGICAL GENETICS OF ABNORMAL ABDOMEN. III. TISSUE-SPECIFIC DIFFERENTIAL REPLICATION OF RIBOSOMAL GENES MODULATES THE ABNORMAL ABDOMEN PHENOTYPE IN DROSOPHILA MERCATORUM

Rob DeSalle ¹ and Alan R. Templeton ²

¹ Department of Biology, Washington University, St. Louis, Missouri 63130, and Department of Genetics, Washington University School of Medicine, St. Louis, Missouri 63110
² Department of Biology, Washington University, St. Louis, Missouri 63130

The abnormal abdomen (aa) syndrome in Drosophila mercatorum is controlled by two major X-linked genetic elements. We have previously shown that the major X-linked element of aa is associated with the presence of large inserts in the 28S gene of the ribosomal RNA (rDNA) genes. We show that, in polytene tissue of wild-type D. mercatorum, the uninterrupted rDNA repeats are overreplicated relative to interrupted repeats. Uninterrupted rDNA repeats are also overreplicated in polytene tissue of hybrid larval offspring from wild-type and aa parents. This overreplication of uninterrupted repeats is not observed in diploid tissues of wild-type hybrids (of wild-type and aa parents) and homozygous aa larvae or in polytene tissue of aa larvae. Furthermore, molecular analysis of an aa line that has reverted to the wild type indicates that the reversion phenomenon is associated with the ability to overreplicate uninterrupted rDNA repeats in polytene tissues. The patterns of differential replication of rDNA genes in wild-type hybrids and aa larvae of D. mercatorum offer a possible mechanism for the tissue-specific control of the aa phenotype and suggest that the molecular basis for the second X-linked genetic element of aa is involved in the control of differential replication in polytene tissues.

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