Phenotypic and Suppressor Analysis of Defecation in clk-1 Mutants Reveals That Reaction to Changes in Temperature Is an Active Process in Caenorhabditis elegans

Phenotypic and Suppressor Analysis of Defecation in clk-1 Mutants Reveals That Reaction to Changes in Temperature Is an Active Process in Caenorhabditis elegans

Robyn Branicky^a, Yukimasa Shibata^a, Jinliu Feng^a, and Siegfried Hekimi^a
^a Department of Biology, McGill University, Montreal, Quebec H3A 1B1, Canada

Corresponding author: Siegfried Hekimi, Department of Biology, McGill University, 1205 Dr. Penfield Ave., Montreal, Quebec H3A 1B1, Canada., shekim1{at}po-box.mcgill.ca (E-mail)

Communicating editor: B. J. MEYER

Mutations in the Caenorhabditis elegans maternal-effect geneclk-1 affect cellular, developmental, and behavioral timing.They result in a slowing of the cell cycle, embryonic and postembryonicdevelopment, reproduction, and aging, as well as of the defecation,swimming, and pharyngeal pumping cycles. Here, we analyze thedefecation behavior in clk-1 mutants, phenotypically and genetically.When wild-type worms are grown at 20° and shifted to a newtemperature, the defecation cycle length is significantly affectedby that new temperature. In contrast, we find that when clk-1mutants are shifted, the defecation cycle length is unaffectedby that new temperature. We carried out a screen for mutationsthat suppress the slow defecation phenotype at 20° and identifiedtwo distinct classes of genes, which we call dsc for defecationsuppressor of clk-1. Mutations in one class also restore theability to react normally to changes in temperature, while mutationsin the other class do not. Together, these results suggest thatclk-1 is necessary for readjusting the defecation cycle lengthin response to changes in temperature. On the other hand, inthe absence of clk-1 activity, we observe temperature compensation,a mechanism that maintains a constant defecation period in theface of changes in temperature.

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