An F1 Genetic Screen for Maternal-Effect Mutations Affecting Embryonic Pattern Formation in Drosophila melanogaster

doi:10.1534/genetics.167.1.325

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An F₁ Genetic Screen for Maternal-Effect Mutations Affecting Embryonic Pattern Formation in Drosophila melanogaster

Stefan Luschnig^a, Bernard Moussian^a, Jana Krauss^a, Isabelle Desjeux^a, Josip Perkovic^a, and Christiane Nüsslein-Volhard^a
^a Max-Planck-Institut für Entwicklungsbiologie, Abteilung Genetik, D-72076 Tübingen, Germany

Corresponding author: Stefan Luschnig, 279 Campus Dr., Beckman Center, Rm. B453, Stanford University School of Medicine, Stanford, CA 94305-5307., luschnig{at}stanford.edu (E-mail)

Communicating editor: T. SCHÜPBACH

Large-scale screens for female-sterile mutations have revealedgenes required maternally for establishment of the body axesin the Drosophila embryo. Although it is likely that the majorityof components involved in axis formation have been identifiedby this approach, certain genes have escaped detection. Thismay be due to (1) incomplete saturation of the screens for female-sterilemutations and (2) genes with essential functions in zygoticdevelopment that mutate to lethality, precluding their identificationas female-sterile mutations. To overcome these limitations,we performed a genetic mosaic screen aimed at identifying newmaternal genes required for early embryonic patterning, includingzygotically required ones. Using the Flp-FRT technique and avisible germline clone marker, we developed a system that allowsefficient screening for maternal-effect phenotypes after onlyone generation of breeding, rather than after the three generationsrequired for classic female-sterile screens. We identified 232mutants showing various defects in embryonic pattern or morphogenesis.The mutants were ordered into 10 different phenotypic classes.A total of 174 mutants were assigned to 86 complementation groupswith two alleles on average. Mutations in 45 complementationgroups represent most previously known maternal genes, while41 complementation groups represent new loci, including severalinvolved in dorsoventral, anterior-posterior, and terminal patterning.

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