The teflon Gene Is Required for Maintenance of Autosomal Homolog Pairing at Meiosis I in Male Drosophila melanogaster

The teflon Gene Is Required for Maintenance of Autosomal Homolog Pairing at Meiosis I in Male Drosophila melanogaster

John E. Tomkiel^a, Barbara T. Wakimoto^b, and Albert Briscoe, Jr.^a
^a Center for Molecular Medicine and Genetics, Wayne State University, Detroit, Michigan 48202
^b Departments of Zoology and Genetics, University of Washington, Seattle, Washington 98195

Corresponding author: John E. Tomkiel, 5047 Gullen Mall, 5156 BSB, Center for Molecular Medicine and Genetics, Wayne State University, Detroit, MI 48202., jtomkiel{at}cmb.biosci.wayne.edu (E-mail)

Communicating editor: R. S. HAWLEY

In recombination-proficient organisms, chiasmata appear to mediateassociations between homologs at metaphase of meiosis I. Itis less clear how homolog associations are maintained in organismsthat lack recombination, such as male Drosophila. In lieu ofchiasmata and synaptonemal complexes, there must be moleculesthat balance poleward forces exerted across homologous centromeres.Here we describe the genetic and cytological characterizationof four EMS-induced mutations in teflon (tef), a gene involvedin this process in Drosophila melanogaster. All four allelesare male specific and cause meiosis I-specific nondisjunctionof the autosomes. They do not measurably perturb sex chromosomesegregation, suggesting that there are differences in the geneticcontrol of autosome and sex chromosome segregation in males.Meiotic transmission of univalent chromosomes is unaffectedin tef mutants, implicating the tef product in a pairing-dependentprocess. The segregation of translocations between sex chromosomesand autosomes is altered in tef mutants in a manner that supportsthis hypothesis. Consistent with these genetic observations,cytological examination of meiotic chromosomes suggests a roleof tef in regulating or mediating pairing of autosomal bivalentsat meiosis I. We discuss implications of this finding in regardto the evolution of heteromorphic sex chromosomes and the mechanismsthat ensure chromosome disjunction in the absence of recombination.

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