Annina C. Spilker scite author profile

The motility of molecular motors and the dynamic instability of microtubules are key dynamic processes for mitotic spindle assembly and function. We report here that one of the mitotic kinesins that localizes to chromosomes, Xklp1 from Xenopus laevis , could inhibit microtubule growth and shrinkage. This effect appeared to be mediated by a structural change in the microtubule lattice. We also found that Xklp1 could act as a fast, nonprocessive, plus end–directed molecular motor. The integration of the two properties, motility and inhibition of microtubule dynamics, in one molecule emphasizes the versatile properties of kinesin family members.

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Control of Embryonic Spindle Positioning and Gα Activity by C. elegans RIC-8

Couwenbergs¹,

Spilker²,

Gotta³

2004

Current Biology

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Asymmetric spindle positioning is of fundamental importance for generating cell diversity during development. In the C. elegans 1 cell embryo, spindle positioning has been shown to depend on heterotrimeric G protein signaling. Two Galpha subunits, GOA-1 and GPA-16 (hereafter Galpha), and receptor independent activators of G protein signaling GPR-1 and GPR-2 (GPR-1/2) are required for proper regulation of spindle positioning . However, it remains unclear whether Galpha regulates spindle positioning in its GDP or GTP bound form. Here, we investigate the role of RIC-8 in this pathway. RIC-8 was genetically shown to act in concert with goa-1 to regulate centrosome movements in C. elegans . Interestingly, mammalian RIC-8 was recently found to behave as a GEF for Galpha subunits in vitro . We show that reduction of function of ric-8 results in a 1 cell embryo phenotype very similar to the phenotype of embryos depleted of Galpha. RIC-8 is able to directly bind to GOA-1, preferentially to GOA-1-GDP, consistent with a GEF role. RIC-8 is localized at the embryo cortex, and its activity is essential for the asymmetric localization of GPR-1/2. We suggest that RIC-8 directly modulates Galpha activity and that Galpha-GTP is the signaling molecule regulating spindle positioning in the early embryo.

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The Caenorhabditis elegans ekl (Enhancer of ksr-1 Lethality) Genes Include Putative Components of a Germline Small RNA Pathway

Rocheleau

Cullison

Huang

et al. 2008

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A canonical Ras-ERK signaling pathway specifies the fate of the excretory duct cell during Caenorhabditis elegans embryogenesis. The paralogs ksr-1 and ksr-2 encode scaffolding proteins that facilitate signaling through this pathway and that act redundantly to promote the excretory duct fate. In a genomewide RNAi screen for genes that, like ksr-2, are required in combination with ksr-1 for the excretory duct cell fate, we identified 16 ''ekl '' (enhancer of ksr-1 lethality) genes that are largely maternally required and that have molecular identities suggesting roles in transcriptional or post-transcriptional gene regulation. These include the Argonaute gene csr-1 and a specific subset of other genes implicated in endogenous small RNA processes, orthologs of multiple components of the NuA4/Tip60 histone acetyltransferase and CCR4/NOT deadenylase complexes, and conserved enzymes involved in ubiquitination and deubiquitination. The identification of four small RNA regulators (csr-1, drh-3, ego-1, and ekl-1) that share the Ekl phenotype suggests that these genes define a functional pathway required for the production and/or function of particular germline small RNA(s). These small RNAs and the other ekl genes likely control the expression of one or more regulators of Ras-ERK signaling that function at or near the level of kinase suppressor of Ras (KSR).

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MAP Kinase Signaling Antagonizes PAR-1 Function During Polarization of the Early Caenorhabditis elegans Embryo

Spilker

Rabilotta

Zbinden

et al. 2009

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PAR proteins (partitioning defective) are major regulators of cell polarity and asymmetric cell division. One of the par genes, par-1, encodes a Ser/Thr kinase that is conserved from yeast to mammals. In Caenorhabditis elegans, par-1 governs asymmetric cell division by ensuring the polar distribution of cell fate determinants. However the precise mechanisms by which PAR-1 regulates asymmetric cell division in C. elegans remain to be elucidated. We performed a genomewide RNAi screen and identified six genes that specifically suppress the embryonic lethal phenotype associated with mutations in par-1. One of these suppressors is mpk-1, the C. elegans homolog of the conserved mitogen activated protein (MAP) kinase ERK. Loss of function of mpk-1 restored embryonic viability, asynchronous cell divisions, the asymmetric distribution of cell fate specification markers, and the distribution of PAR-1 protein in par-1 mutant embryos, indicating that this genetic interaction is functionally relevant for embryonic development. Furthermore, disrupting the function of other components of the MAPK signaling pathway resulted in suppression of par-1 embryonic lethality. Our data therefore indicates that MAP kinase signaling antagonizes PAR-1 signaling during early C. elegans embryonic polarization.

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G630042g04

Meigs¹,

Lyakhovich²,

Shim³

et al. 2012

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Annina C. Spilker

A Kinesin-like Motor Inhibits Microtubule Dynamic Instability

Control of Embryonic Spindle Positioning and Gα Activity by C. elegans RIC-8

The Caenorhabditis elegans ekl (Enhancer of ksr-1 Lethality) Genes Include Putative Components of a Germline Small RNA Pathway

MAP Kinase Signaling Antagonizes PAR-1 Function During Polarization of the Early Caenorhabditis elegans Embryo

G630042g04

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