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Aurora-B kinase pathway controls the lateral to end-on conversion of kinetochore-microtubule attachments in human cells.


ABSTRACT: Human chromosomes are captured along microtubule walls (lateral attachment) and then tethered to microtubule-ends (end-on attachment) through a multi-step end-on conversion process. Upstream regulators that orchestrate this remarkable change in the plane of kinetochore-microtubule attachment in human cells are not known. By tracking kinetochore movements and using kinetochore markers specific to attachment status, we reveal a spatially defined role for Aurora-B kinase in retarding the end-on conversion process. To understand how Aurora-B activity is counteracted, we compare the roles of two outer-kinetochore bound phosphatases and find that BubR1-associated PP2A, unlike KNL1-associated PP1, plays a significant role in end-on conversion. Finally, we uncover a novel role for Aurora-B regulated Astrin-SKAP complex in ensuring the correct plane of kinetochore-microtubule attachment. Thus, we identify Aurora-B as a key upstream regulator of end-on conversion in human cells and establish a late role for Astrin-SKAP complex in the end-on conversion process.Human chromosomes are captured along microtubule walls and then tethered to microtubule-ends through a multi-step end-on conversion process. Here the authors show that Aurora-B regulates end-on conversion in human cells and establish a late role for Astrin-SKAP complex in the end-on conversion process.

SUBMITTER: Shrestha RL 

PROVIDER: S-EPMC5532248 | biostudies-literature | 2017 Jul

REPOSITORIES: biostudies-literature

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Aurora-B kinase pathway controls the lateral to end-on conversion of kinetochore-microtubule attachments in human cells.

Shrestha Roshan L RL   Conti Duccio D   Tamura Naoka N   Braun Dominique D   Ramalingam Revathy A RA   Cieslinski Konstanty K   Ries Jonas J   Draviam Viji M VM  

Nature communications 20170728 1


Human chromosomes are captured along microtubule walls (lateral attachment) and then tethered to microtubule-ends (end-on attachment) through a multi-step end-on conversion process. Upstream regulators that orchestrate this remarkable change in the plane of kinetochore-microtubule attachment in human cells are not known. By tracking kinetochore movements and using kinetochore markers specific to attachment status, we reveal a spatially defined role for Aurora-B kinase in retarding the end-on con  ...[more]

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