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Originally published as MBC in Press, 10.1091/mbc.E07-02-0105 on August 29, 2007

Vol. 18, Issue 11, 4470-4482, November 2007

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PAR-3 and PAR-1 Inhibit LET-99 Localization to Generate a Cortical Band Important for Spindle Positioning in Caenorhabditis elegans EmbryosFormula Formula

Jui-Ching Wu, and Lesilee S. Rose

Section of Molecular and Cellular Biology, University of California, Davis, CA 95616

Submitted February 6, 2007; Revised August 8, 2007; Accepted August 16, 2007
Monitoring Editor: Fred Chang

The conserved PAR proteins are localized in asymmetric cortical domains and are required for the polarized localization of cell fate determinants in many organisms. In Caenorhabditis elegans embryos, LET-99 and G protein signaling act downstream of the PARs to regulate spindle positioning and ensure asymmetric division. PAR-3 and PAR-2 localize LET-99 to a posterior cortical band through an unknown mechanism. Here we report that LET-99 asymmetry depends on cortically localized PAR-1 and PAR-4 but not on cytoplasmic polarity effectors. In par-1 and par-4 embryos, LET-99 accumulates at the entire posterior cortex, but remains at low levels at the anterior cortex occupied by PAR-3. Further, PAR-3 and PAR-1 have graded cortical distributions with the highest levels at the anterior and posterior poles, respectively, and the lowest levels of these proteins correlate with high LET-99 accumulation. These results suggest that PAR-3 and PAR-1 inhibit the localization of LET-99 to generate a band pattern. In addition, PAR-1 kinase activity is required for the inhibition of LET-99 localization, and PAR-1 associates with LET-99. Finally, examination of par-1 embryos suggests that the banded pattern of LET-99 is critical for normal posterior spindle displacement and to prevent spindle misorientation caused by cell shape constraints.

This was published online ahead of print in MBC in Press (http://www.molbiolcell.org/cgi/doi/10.1091/mbc.E07-02-0105) on August 29, 2007.

Formula Formula The online version of this article contains supplemental material at MBC Online (http://www.molbiolcell.org).

Address correspondence to: Lesilee S. Rose (lsrose{at}ucdavis.edu)






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