Molecular Architecture of the Yeast Monopolin Complex

SummaryThe Saccharomyces cerevisiae monopolin complex directs proper chromosome segregation in meiosis I by mediating co-orientation of sister kinetochores on the meiosis I spindle. The monopolin subunits Csm1 and Lrs4 form a V-shaped complex that may directly crosslink sister kinetochores. We report here biochemical characterization of the monopolin complex subunits Mam1 and Hrr25 and of the complete four-protein monopolin complex. By purifying monopolin subcomplexes with different subunit combinations, we have determined the stoichiometry and overall architecture of the full monopolin complex. We have determined the crystal structure of Csm1 bound to a Mam1 fragment, showing how Mam1 wraps around the Csm1 dimer and alters the stoichiometry of kinetochore-protein binding by Csm1. We further show that the kinase activity of Hrr25 is altered by Mam1 binding, and we identify Hrr25 phosphorylation sites on Mam1 that may affect monopolin complex stability and/or kinetochore binding in meiosis.

Graphical AbstractFigure optionsDownload as PowerPoint slideHighlights
► Monopolin complex reconstitution reveals its overall architecture and stoichiometry
► Mam1 binds Csm1 and alters its kinetochore-protein binding properties
► Mam1 binding directly affects Hrr25 kinase activity
► Mam1 phosphorylation by Hrr25 may affect monopolin stability and kinetochore binding