RING CHROMOSOMES AND rDNA MAGNIFICATION IN DROSOPHILA

Sharyn A. Endow ¹, Donald J. Komma ², and K. C. Atwood ²

¹ Department of Microbiology and Immunology, Duke University Medical Center, Durham, North Carolina 27710
² Department of Human Genetics and Development, College of Physicians and Surgeons, Columbia University New York, New York 10032

Tartof showed that ribosomal gene magnification in Drosophila was inhibited in a ring X chromosome. The present studies extend this observation by showing that ring X chromosomes are lost meiotically in male Drosophila undergoing ribosomal gene magnification as evidenced by the recovery of a lower number of ring-bearing progeny under magnifying conditions compared with nonmagnifying conditions. Associated with ring chromosome loss is a highly significant increase in the number of double-sized dicentric ring chromosomes in meiotic cells from magnifying males. These observations explain the failure of ring X chromosomes to magnify and imply that magnification in rod chromosomes occurs via a mechanism of unequal sister chromatid exchange. Our results support the hypothesis that the primary event of magnification is a sister chromatid exchange in the rDNA, that the frequency of sister strand exchanges is increased in magnifying flies, that a significant number of exchanges in magnifying flies occurs meiotically and that some of the exchanges are nonreciprocal. We have also found that autosomal mutations can affect both the frequency of abnormal ring structures and the ability of ring X chromosomes to magnify.

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