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First published online 27 February 2008
doi: 10.1242/dev.019075

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PLK-1 asymmetry contributes to asynchronous cell division of C. elegans embryos

Swiss Institute for Experimental Cancer Research (ISREC), School of Life Sciences, Swiss Federal Institute of Technology (EPFL), Lausanne, Switzerland.

^* Author for correspondence (e-mail: pierre.gonczy{at}epfl.ch)

Accepted 31 January 2008

Acquisition of lineage-specific cell cycle duration is an important feature of metazoan development. In Caenorhabditis elegans, differences in cell cycle duration are already apparent in two-cell stage embryos, when the larger anterior blastomere AB divides before the smaller posterior blastomere P₁. This time difference is under the control of anterior-posterior (A-P) polarity cues set by the PAR proteins. The mechanisms by which these cues regulate the cell cycle machinery differentially in AB and P₁ are incompletely understood. Previous work established that retardation of P₁ cell division is due in part to preferential activation of an ATL-1/CHK-1 dependent checkpoint in P₁, but how the remaining time difference is controlled is not known. Here, we establish that differential timing relies also on a mechanism that promotes mitosis onset preferentially in AB. The polo-like kinase PLK-1, a positive regulator of mitotic entry, is distributed in an asymmetric manner in two-cell stage embryos, with more protein present in AB than in P₁. We find that PLK-1 asymmetry is regulated by A-P polarity cues through preferential protein retention in the embryo anterior. Importantly, mild inactivation of plk-1 by RNAi delays entry into mitosis in P₁, but not in AB, in a manner that is independent of ATL-1/CHK-1. Together, our findings support a model in which differential timing of mitotic entry in C. elegans embryos relies on two complementary mechanisms: ATL-1/CHK-1-dependent preferential retardation in P₁ and PLK-1-dependent preferential promotion in AB, which together couple polarity cues and cell cycle progression during early development.

Key words: C. elegans, Embryo, Polo-like kinase, Asymmetry, Cell division timing

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