The kinetochore is essential for the accurate segregation of sister chromosome in the eukaryote cell. Among the kinetochore subunits, five proteins CENP-O/P/U/Q/R form a stable complex, referred to as CENP-O class, and are required for proper kinetochore function. Although the function and structure of yeast COMA complex (CENP-O/P/U/Q homologs) have been revealed extensively, the assembly mechanism and detail interactions among human CENP-O class are significantly different and remain largely unclear. Here, we identified the fragment (residues 241-360) of CENP-U and the C-terminal half of CENP-Q are essential to form a hetero-complex and interact with CENP-O/P sub-complex in vitro. We for the first time showed that CENP-R does not directly interact with CENP-O/P in vitro, but indeed interact with CENP-U and CENP-Q. Furthermore, both the N- and C-terminus of CENP-R are required for the interaction with CENP-U and CENP-Q. Our research pinpointed a novel interaction pattern that might shed light on the assembly mechanism of vertebrate CENP-O class.
Keywords: CENP-O class; kinetochores; protein complex; protein-protein interaction.
© 2021 John Wiley & Sons Ltd.