The Drosophila wispy Gene Is Required for RNA Localization and Other Microtubule-Based Events of Meiosis and Early Embryogenesis

The Drosophila wispy Gene Is Required for RNA Localization and Other Microtubule-Based Events of Meiosis and Early Embryogenesis

A. E. Brent^a, A. MacQueen^a, and T. Hazelrigg^a
^a Department of Biological Sciences, Columbia University, New York, New York 10027

Corresponding author: T. Hazelrigg, Department of Biological Sciences, 602 Fairchild, 1212 Amsterdam Ave., Columbia University, New York, NY 10027., tulle{at}cubsps.bio.columbia.edu (E-mail)

Communicating editor: R. S. HAWLEY

RNAs are localized by microtubule-based pathways to both theanterior and posterior poles of the developing Drosophila oocyte.We describe a new gene, wispy, required for localization ofmRNAs to both poles of the egg. Embryos from wispy mothers arrestdevelopment after abnormal oocyte meiosis and failure of pronucleito fuse. Our analysis of spindle and chromosome movements duringmeiosis reveals defects in spindle structures correlated withvery high frequencies of chromosome nondisjunction and loss.Spindle defects include abnormally shaped spindles, spindlespurs, and ectopic spindles associated with lost chromosomes,as well as mispositioning of the meiosis II spindles. The polarbody nuclei do not associate with their normal monastral arraysof microtubules, the sperm aster is reduced in size, and thecentrosomes often dissociate from a mitotic spindle that formsin association with the male pronucleus. We show that wispyis required to recruit or maintain known centrosomal proteinswith two types of microtubule organizing centers (MTOCs): (1)the central MTOC that forms between the meiosis II tandem spindlesand (2) the centrosomes of the mitotic spindle. We propose thatthe wispy gene product functions directly in several microtubule-basedevents in meiosis and early embryogenesis and speculate aboutits possible mode of action.

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