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    1. Structural Biology and Molecular Biophysics
    2. Cell Biology

    The homo-oligomerisation of both Sas-6 and Ana2 is required for efficient centriole assembly in flies

    Matthew A Cottee et al.
    The structure of the Ana2 Central Coiled-Coil Domain provides insight into how centriolar cartwheel components may be recruited and assembled, and indicates that cartwheel assembly involves more than just SAS-6 oligomerisation.
    1. Cell Biology

    Re-examining the role of Drosophila Sas-4 in centrosome assembly using two-colour-3D-SIM FRAP

    Paul T Conduit et al.
    Building on previous work (Conduit et al., 2014), and contrary to what was previously thought, it is shown that key centrosomal proteins are not recruited to centrosomes as part of large multi-protein assemblies.
    1. Biochemistry and Chemical Biology
    2. Structural Biology and Molecular Biophysics

    Structure of the SAS-6 cartwheel hub from Leishmania major

    Mark van Breugel et al.
    The X-ray structure of the SAS-6 cartwheel hub from Leishmania major demonstrates that SAS-6 can be sufficient to determine centriolar cartwheel symmetry.
    1. Cell Biology

    A novel Cep120-dependent mechanism inhibits centriole maturation in quiescent cells

    Ewelina Betleja et al.
    Cells have evolved a mechanism that actively regulates centriole maturation during quiescence.
    1. Cell Biology

    Electron cryo-tomography provides insight into procentriole architecture and assembly mechanism

    Sam Li et al.
    A detailed description of the structure of procentriole MT triplet by cryoET, along with its associated non-tubulin proteins and its assembly intermediates, reveals possible molecular mechanism for the procentriole assembly.
    1. Cell Biology

    Pericentrin-mediated SAS-6 recruitment promotes centriole assembly

    Daisuke Ito et al.
    Newly discovered interaction between fission yeast SPB and animal centriole components reveals that pericentrin not only functions as a microtubule-nucleator, but also promotes centriole assembly in animals.
    1. Computational and Systems Biology
    2. Physics of Living Systems

    Nuclei determine the spatial origin of mitotic waves

    Felix E Nolet et al.
    Nuclei and spatial system dimensions control local concentrations of cell cycle regulators, determining the spatial origin of waves that coordinate​ DNA replication and, subsequently, cell division.
    1. Developmental Biology

    Generation of the squamous epithelial roof of the 4th ventricle

    Florent Campo-Paysaa et al.
    A new cell type at the border of the fourth ventricle is the exclusive source of roof plate.
    1. Cell Biology

    A two-step mechanism for the inactivation of microtubule organizing center function at the centrosome

    Jérémy Magescas et al.
    The microtubule organizing potential of the centrosome is inactivated in a stepwise process through phosphatase activity and mechanical disruption to remove an aging matrix of proteins.
    1. Cell Biology

    Centriole triplet microtubules are required for stable centriole formation and inheritance in human cells

    Jennifer T Wang et al.
    Deletion of delta-tubulin or epsilon-tubulin in human cells results in loss of centriolar triplet microtubules and defects in centriole structure and inheritance.