Identification and Analysis of Mutations in bob, Doa and Eight New Genes Required for Oocyte Specification and Development in Drosophila melanogaster

Identification and Analysis of Mutations in bob, Doa and Eight New Genes Required for Oocyte Specification and Development in Drosophila melanogaster

Jason Z. Morris^a, Caryn Navarro^a, and Ruth Lehmann^a
^a Developmental Genetics Program, The Skirball Institute and Howard Hughes Medical Institute, NYU School of Medicine, New York, New York 10016

Corresponding author: Ruth Lehmann, The Skirball Institute and Howard Hughes Medical Institute, NYU School of Medicine, 540 First Ave., 4th Floor, New York, NY 10016., lehmann{at}saturn.med.nyu.edu (E-mail)

Communicating editor: T. SCHUPBACH

The Drosophila oocyte develops from a cluster of 16 interconnectedcells that derive from a common progenitor. One of these cells,the oocyte, arrests in meiosis. The other cells endoreplicatetheir DNA and produce mRNAs and proteins that they traffic tothe oocyte along a polarized microtubule cytoskeleton sharedby the entire cyst. Therefore, Drosophila oogenesis is an attractivesystem for the study of cell cycle control and cell polarity.We carried out a clonal screen on the right arm of chromosome3 for female sterile mutations using the FLP-FRT-ovo^D systemto identify new genes required for early oogenesis. We identifiedalleles of oo18 RNA binding protein (orb) and Darkener of apricot(Doa), which had previously been shown to exhibit oogenesisdefects. We also identified several lethal alleles of the malesterile mutant, bobble (bob). In addition, we identified eightnew lethal complementation groups that exhibit early oogenesisphenotypes. We analyzed mutant clones to determine the aspectsof oogenesis disrupted by each complementation group. We assayedfor the production and development of egg chambers, localizationof ORB to and within the oocyte, and proper execution of thenurse cell cycle (endoreplication of DNA) and the oocyte cellcycle (karyosome formation). Here we discuss the identification,mapping, and phenotypic characterization of these new genes:omelet, soft boiled, hard boiled, poached, fried, over easy,sunny side up, and benedict.

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