Abstract
Non-claret disjunctional (Ncd) is aDrosophilakinesin-like motor required for spindle assembly and maintenance in oocytes and early embryos. Ncd has an ATP-independent microtubule binding site in the N-terminal tail domain as well as an ATP-dependent microtubule binding site in the C-terminal motor domain. The Ncd tail domain shares many properties with the microtubule-associated proteins that regulate microtubule assembly, including microtubule binding and bundling activity and an abundance of basic and proline residues. Given these similarities, we examined the ability of Ncd tail domain proteins to promote MT assembly and stability. The results indicate that the Ncd tail domain can promote MT assembly and stabilize MTs against conditions that induce MT disassembly, and suggest that Ncd may influence MT dynamics within the spindle.
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