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Journal Article

Mechanism of APC/C-CDC20 activation by mitotic phosphorylation.

MPS-Authors
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Haselbach,  D.
Research Group of 3D Electron Cryo-Microscopy, MPI for Biophysical Chemistry, Max Planck Society;

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Stark,  H.
Department of Structural Dynamics, MPI for Biophysical Chemistry, Max Planck Society;

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Citation

Qiao, R. P., Weissmann, F., Yamaguchi, M., Brown, N. G., VanderLinden, R., Imre, R., et al. (2016). Mechanism of APC/C-CDC20 activation by mitotic phosphorylation. Proceedings of the National Academy of Sciences of the United States of America, 113(19), E2570-E2578. doi:10.1073/pnas.1604929113.


Cite as: https://hdl.handle.net/11858/00-001M-0000-002A-6B75-8
Abstract
Chromosome segregation and mitotic exit are initiated by the 1.2-MDa ubiquitin ligase APC/C (anaphase-promoting complex/cyclosome) and its coactivator CDC20 (cell division cycle 20). To avoid chromosome missegregation, APC/C-CDC20 activation is tightly controlled. CDC20 only associates with APC/C in mitosis when APC/C has become phosphorylated and is further inhibited by a mitotic checkpoint complex until all chromosomes are bioriented on the spindle. APC/C contains 14 different types of subunits, most of which are phosphorylated in mitosis on multiple sites. However, it is unknown which of these phospho-sites enable APC/C-CDC20 activation and by which mechanism. Here we have identified 68 evolutionarily conserved mitotic phosphosites on human APC/C bound to CDC20 and have used the biGBac technique to generate 47 APC/C mutants in which either all 68 sites or subsets of them were replaced by nonphosphorylatable or phospho- mimicking residues. The characterization of these complexes in substrate ubiquitination and degradation assays indicates that phosphorylation of an N-terminal loop region in APC1 is sufficient for binding and activation of APC/C by CDC20. Deletion of the N-terminal APC1 loop enables APC/C-CDC20 activation in the absence of mitotic phosphorylation or phospho-mimicking mutations. These results indicate that binding of CDC20 to APC/C is normally prevented by an autoinhibitory loop in APC1 and that its mitotic phosphorylation relieves this inhibition. The predicted location of the N-terminal APC1 loop implies that this loop controls interactions between the N-terminal domain of CDC20 and APC1 and APC8. These results reveal how APC/C phosphorylation enables CDC20 to bind and activate the APC/C in mitosis.