1. Dynein light chain-dependent dimerization of Egalitarian is essential for maintaining oocyte fate in Drosophila.
- Author
-
Neiswender, Hannah, Goldman, Chandler H., Veeranan-Karmegam, Rajalakshmi, and Gonsalvez, Graydon B.
- Subjects
- *
DYNEIN , *DIMERIZATION , *OVUM , *DROSOPHILA , *MOLECULAR motor proteins , *LEUCINE zippers - Abstract
Egalitarian (Egl) is an RNA adaptor for the Dynein motor and is thought to link numerous, perhaps hundreds, of mRNAs with Dynein. Dynein, in turn, is responsible for the transport and localization of these mRNAs. Studies have shown that efficient mRNA binding by Egl requires the protein to dimerize. We recently demonstrated that Dynein light chain (Dlc) is responsible for facilitating the dimerization of Egl. Mutations in Egl that fail to interact with Dlc do not dimerize, and as such, are defective for mRNA binding. Consequently, this mutant does not efficiently associate with BicaudalD (BicD), the factor responsible for linking the Egl/mRNA complex with Dynein. In this report, we tested whether artificially dimerizing this Dlc-binding mutant using a leucine zipper would restore mRNA binding and rescue mutant phenotypes in vivo. Interestingly, we found that although artificial dimerization of Egl restored BicD binding, it only partially restored mRNA binding. As a result, Egl-dependent phenotypes, such as oocyte specification and mRNA localization, were only partially rescued. We hypothesize that Dlc-mediated dimerization of Egl results in a three-dimensional conformation of the Egl dimer that is best suited for mRNA binding. Although the leucine zipper restores Egl dimerization, it likely does not enable Egl to assemble into the conformation required for maximal mRNA binding activity. [Display omitted] • Dynein light chain facilitates the dimerization of Egalitarian. •Egalitarian dimerization is required for efficient mRNA binding. •Artificial dimerization of an Egalitarian mutant that cannot bind Dynein light chain partially restores the function of Egalitarian. •Dynein light chain mediated dimerization of Egalitarian is particularly important at early stage of oogenesis. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF