Wispy, the Drosophila Homolog of GLD-2, Is Required During Oogenesis and Egg Activation

Jun Cui, Katharine L. Sackton, Vanessa L. Horner, Kritika E. Kumar and Mariana F. Wolfner¹

Department of Molecular Biology and Genetics, Cornell University, Ithaca, New York 14853

^¹ Corresponding author: Department of Molecular Biology and Genetics, Room 423, Biotechnology Bldg., Cornell University, Ithaca, NY 14853.
E-mail: mfw5{at}cornell.edu

Egg activation is the process that modifies mature, arrestedoocytes so that embryo development can proceed. One key aspectof egg activation is the cytoplasmic polyadenylation of certainmaternal mRNAs to permit or enhance their translation. wispy(wisp) maternal-effect mutations in Drosophila block developmentduring the egg-to-embryo transition. We show here that the wispgene encodes a member of the GLD-2 family of cytoplasmic poly(A)polymerases (PAPs). The WISP protein is required for poly(A)tail elongation of bicoid, Toll, and torso mRNAs upon egg activation.In Drosophila, WISP and Smaug (SMG) have previously been reportedto be required to trigger the destabilization of maternal mRNAsduring egg activation. SMG is the major regulator of this activity.We report here that SMG is still translated in activated eggsfrom wisp mutant mothers, indicating that WISP does not regulatemRNA stability by controlling the translation of smg mRNA. Wehave also analyzed in detail the very early developmental arrestassociated with wisp mutations. Pronuclear migration does notoccur in activated eggs laid by wisp mutant females. Finally,we find that WISP function is also needed during oogenesis toregulate the poly(A) tail length of dmos during oocyte maturationand to maintain a high level of active (phospho-) mitogen-activatedprotein kinases (MAPKs).

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ISSUE HIGHLIGHTS: Genetics 2008 178: 0. [Full Text]