On the Genomic Location of the exuperantia1 Gene in Drosophila miranda: The Limits of in Situ Hybridization Experiments

Corresponding author: Doris Bachtrog, Animal and Population Biology, University of Edinburgh, King's Bldgs., West Mains Rd., Edinburgh EH9 3JT, United Kingdom., doris.bachtrog{at}ed.ac.uk (E-mail)

Communicating editor: M. A. F. NOOR

In situ hybridization to Drosophila polytene chromosomes is a powerful tool for determining the chromosomal location of genes. Using in situ hybridization experiments, Yi and Charlesworth recently reported the transposition of the exuperantia1 gene (exu1) from a neo-sex chromosome to the ancestral X chromosome of Drosophila miranda, close to exuperantia2 (exu2). By characterizing sequences flanking exu1, however, we found the position of exu1 to be conserved on the neo-sex chromosome. Further, the exu2 gene was found to be tandemly duplicated on the X chromosome of D. miranda. The misleading hybridization signal of exu1 may be caused by multiple copies of exu2, which interfere with the hybridization of the exu1 probe to its genomic position on the neo-X chromosome. This suggests that flanking DNA should be used to confirm the positions of members of gene families.

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