The kinetochore is the macromolecular protein complex that assembles onto centromeric DNA and binds spindle microtubules. Evolutionarily divergent kinetoplastids have an unconventional set of kinetochore proteins. It remains unknown how kinetochores assemble at centromeres in these organisms. Here, we characterize KKT2 and KKT3 in the kinetoplastid parasite Trypanosoma brucei. In addition to the N-terminal kinase domain and C-terminal divergent polo boxes, these proteins have a central domain of unknown function. We show that KKT2 and KKT3 are important for the localization of several kinetochore proteins and that their central domains are sufficient for centromere localization. Crystal structures of the KKT2 central domain from two divergent kinetoplastids reveal a unique zinc-binding domain (termed the CL domain for centromere localization), which promotes its kinetochore localization in T. brucei. Mutations in the equivalent domain in KKT3 abolish its kinetochore localization and function. Our work shows that the unique central domains play a critical role in mediating the centromere localization of KKT2 and KKT3.
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CLK1/CLK2-driven signalling at the Leishmania kinetochore is captured by spatially referenced proximity phosphoproteomics.
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Article Synopsis
- The kinetochore is a critical structure that forms on chromosome centromeres, crucial for attaching spindle microtubules during cell division in organisms like Trypanosoma brucei.
- Researchers identified amidobenzimidazoles (AB) as potent protein kinase inhibitors targeting the CLK1 kinase, which is essential for T. brucei's survival.
- Inhibiting CLK1 disrupts the recruitment of proteins to the kinetochore and hinders cell division, indicating its potential as a selective drug target for treating diseases caused by parasitic protozoa.
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