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Cdc4 phospho-degrons allow differential regulation of Ame1CENP-U protein stability across the cell cycle.

eLife (2021-07-27)
Miriam Böhm, Kerstin Killinger, Alexander Dudziak, Pradeep Pant, Karolin Jänen, Simone Hohoff, Karl Mechtler, Mihkel Örd, Mart Loog, Elsa Sanchez-Garcia, Stefan Westermann
RESUMEN

Kinetochores are multi-subunit protein assemblies that link chromosomes to microtubules of the mitotic and meiotic spindle. It is still poorly understood how efficient, centromere-dependent kinetochore assembly is accomplished from hundreds of individual protein building blocks in a cell cycle-dependent manner. Here, by combining comprehensive phosphorylation analysis of native Ctf19CCAN subunits with biochemical and functional assays in the model system budding yeast, we demonstrate that Cdk1 phosphorylation activates phospho-degrons on the essential subunit Ame1CENP-U, which are recognized by the E3 ubiquitin ligase complex SCF-Cdc4. Gradual phosphorylation of degron motifs culminates in M-phase and targets the protein for degradation. Binding of the Mtw1Mis12 complex shields the proximal phospho-degron, protecting kinetochore-bound Ame1 from the degradation machinery. Artificially increasing degron strength partially suppresses the temperature sensitivity of a cdc4 mutant, while overexpression of Ame1-Okp1 is toxic in SCF mutants, demonstrating the physiological importance of this mechanism. We propose that phospho-regulated clearance of excess CCAN subunits facilitates efficient centromere-dependent kinetochore assembly. Our results suggest a novel strategy for how phospho-degrons can be used to regulate the assembly of multi-subunit complexes.

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ANTI-FLAG® M2-Peroxidasa (HRP) monoclonal antibody produced in mouse, clone M2, purified immunoglobulin, buffered aqueous glycerol solution
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Benomyl, PESTANAL®, analytical standard