Degradation of aberrant, excess, and regulatory proteins at the endoplasmic reticulum (ER) is a conserved feature of eukaryotic cells, disruption of which contributes to disease. While remarkable progress has been made in recent years, mechanisms and genetic requirements for ER-Associated Degradation (ERAD) remain incompletely understood. We recently conducted a screen for genes required for turnover of a model ER translocon-associated substrate of the Hrd1 ubiquitin ligase in . This screen revealed loss of Kar3 impedes degradation of *-Sec62, which persistently and aberrantly engages the translocon. Kar3 is a microtubule-associated kinesin 14 family member that impacts multiple aspects of microtubule dynamics during cell division and karyogamy. We investigated involvement of Kar3 and its cofactors in ERAD. Loss of Kar3 hindered ERAD mediated by three ubiquitin ligases but did not impair turnover of a soluble nuclear protein. Further, deletion caused hypersensitivity to conditions associated with proteotoxic stress. Kar3's cytoplasmic cofactor Vik1 was also required for efficient degradation of *-Sec62. Our results reveal a profound and underappreciated role for microtubule-associated proteins in ERAD.
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The Kinesin Kar3 is Required for Endoplasmic Reticulum-Associated Degradation.
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Department of Biology, Ball State University, Muncie, Indiana.
Degradation of aberrant, excess, and regulatory proteins at the endoplasmic reticulum (ER) is a conserved feature of eukaryotic cells, disruption of which contributes to disease. While remarkable progress has been made in recent years, mechanisms and genetic requirements for ER-Associated Degradation (ERAD) remain incompletely understood. We recently conducted a screen for genes required for turnover of a model ER translocon-associated substrate of the Hrd1 ubiquitin ligase in .
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Department of Molecular Genetics, Faculty of Biology, Center of Medical Biotechnology, University of Duisburg-Essen, Essen, Germany.
Kinesin-14s are conserved molecular motors required for high-fidelity chromosome segregation, but their specific contributions to spindle function have not been fully defined. Here, we show that key functions of budding yeast Kinesin-14 Cik1-Kar3 are accomplished in a complex with Bim1 (yeast EB1). Genetic complementation of mitotic phenotypes identifies a novel KLTF peptide motif in the Cik1 N-terminus.
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Department of Biomedical and Molecular Sciences, Queen's University, Kingston, Ontario, Canada
Candida albicans is a major fungal pathogen whose virulence is associated with its ability to transition from a budding yeast form to invasive hyphal filaments. The kinesin-14 family member CaKar3 is required for transition between these morphological states, as well as for mitotic progression and karyogamy. While kinesin-14 proteins are ubiquitous, CaKar3 homologs in hemiascomycete fungi are unique because they form heterodimers with noncatalytic kinesin-like proteins.
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Mol Cell
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Department of Biochemistry and Biophysics, University of California, San Francisco, San Francisco, CA 94115, USA.
Cik1, in association with the kinesin Kar3, controls both the mitotic spindle and nuclear fusion during mating. Here, we show that there are two Cik1 isoforms, and that the mitotic form includes an N-terminal domain required for ubiquitination by the Anaphase-Promoting Complex/Cyclosome (APC/C). During vegetative growth, Cik1 is expressed during mitosis and regulates the mitotic spindle, allowing for accurate chromosome segregation.
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