Abstract
Kinetochores must continuously associate with dynamic microtubule plus ends, as they oscillate along the mitotic spindle. The molecular basis for the kinetochore to track microtubule plus ends remains unresolved. In a recent study, we have shown an essential role of the formin mDia3 in stable kinetochore microtubule attachment and metaphase chromosome alignment. This function is attributable to EB1-binding by mDia3, for replacing endogenous mDia3 with an EB1-binding deficient mutant results in chromosome misalignment. EB1 specifically targets to attached, antipoleward kinetochores with polymerizing microtubules during chromosome oscillation. Therefore, we speculate that the mDai3-EB1-APC complex formation may relay EB1 microtubule plus end-tracking activity to the kinetochore.
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