A Farnesyltransferase Acts to Inhibit Ectopic Neurite Formation in C. elegans

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Abstract

Genetic pathways that regulate nascent neurite formation play a critical role in neuronal morphogenesis. The core planar cell polarity components VANG-1/Van Gogh and PRKL-1/ Prickle are involved in blocking inappropriate neurite formation in a subset of motor neurons in C. elegans. A genetic screen for mutants that display supernumerary neurites was performed to identify additional factors involved in this process. This screen identified mutations in fntb-1, the β subunit of farnesyltransferase. We show that fntb-1 is expressed in neurons and acts cell-autonomously to regulate neurite formation. Prickle proteins are known to be post-translationally modified by farnesylation at their C-terminal CAAX motifs. We show that PRKL-1 can be recruited to the plasma membrane in both a CAAX-dependent and CAAX-independent manner but that PRKL-1 can only inhibit neurite formation in a CAAX-dependent manner.

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APA

Carr, D., Sanchez-Alvarez, L., Imai, J. H., Slatculescu, C., Noblett, N., Mao, L., … Colavita, A. (2016). A Farnesyltransferase Acts to Inhibit Ectopic Neurite Formation in C. elegans. PLoS ONE, 11(6). https://doi.org/10.1371/journal.pone.0157537

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