Structure of a Blinkin-BUBR1 complex reveals an interaction crucial for kinetochore-mitotic checkpoint regulation via an unanticipated binding Site
VM Bolanos-Garcia, T Lischetti, D Matak-Vinković… - Structure, 2011 - cell.com
Structure, 2011•cell.com
The maintenance of genomic stability relies on the spindle assembly checkpoint (SAC),
which ensures accurate chromosome segregation by delaying the onset of anaphase until
all chromosomes are properly bioriented and attached to the mitotic spindle. BUB1 and
BUBR1 kinases are central for this process and by interacting with Blinkin, link the SAC with
the kinetochore, the macromolecular assembly that connects microtubules with centromeric
DNA. Here, we identify the Blinkin motif critical for interaction with BUBR1, define the …
which ensures accurate chromosome segregation by delaying the onset of anaphase until
all chromosomes are properly bioriented and attached to the mitotic spindle. BUB1 and
BUBR1 kinases are central for this process and by interacting with Blinkin, link the SAC with
the kinetochore, the macromolecular assembly that connects microtubules with centromeric
DNA. Here, we identify the Blinkin motif critical for interaction with BUBR1, define the …
Summary
The maintenance of genomic stability relies on the spindle assembly checkpoint (SAC), which ensures accurate chromosome segregation by delaying the onset of anaphase until all chromosomes are properly bioriented and attached to the mitotic spindle. BUB1 and BUBR1 kinases are central for this process and by interacting with Blinkin, link the SAC with the kinetochore, the macromolecular assembly that connects microtubules with centromeric DNA. Here, we identify the Blinkin motif critical for interaction with BUBR1, define the stoichiometry and affinity of the interaction, and present a 2.2 Å resolution crystal structure of the complex. The structure defines an unanticipated BUBR1 region responsible for the interaction and reveals a novel Blinkin motif that undergoes a disorder-to-order transition upon ligand binding. We also show that substitution of several BUBR1 residues engaged in binding Blinkin leads to defects in the SAC, thus providing the first molecular details of the recognition mechanism underlying kinetochore-SAC signaling.
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