eLife (Mar 2021)

The dimeric Golgi protein Gorab binds to Sas6 as a monomer to mediate centriole duplication

  • Agnieszka Fatalska,
  • Emma Stepinac,
  • Magdalena Richter,
  • Levente Kovacs,
  • Zbigniew Pietras,
  • Martin Puchinger,
  • Gang Dong,
  • Michal Dadlez,
  • David M Glover

DOI
https://doi.org/10.7554/eLife.57241
Journal volume & issue
Vol. 10

Abstract

Read online

The duplication and ninefold symmetry of the Drosophila centriole requires that the cartwheel molecule, Sas6, physically associates with Gorab, a trans-Golgi component. How Gorab achieves these disparate associations is unclear. Here, we use hydrogen–deuterium exchange mass spectrometry to define Gorab’s interacting surfaces that mediate its subcellular localization. We identify a core stabilization sequence within Gorab’s C-terminal coiled-coil domain that enables homodimerization, binding to Rab6, and thereby trans-Golgi localization. By contrast, part of the Gorab monomer’s coiled-coil domain undergoes an antiparallel interaction with a segment of the parallel coiled-coil dimer of Sas6. This stable heterotrimeric complex can be visualized by electron microscopy. Mutation of a single leucine residue in Sas6’s Gorab-binding domain generates a Sas6 variant with a sixteenfold reduced binding affinity for Gorab that cannot support centriole duplication. Thus, Gorab dimers at the Golgi exist in equilibrium with Sas6-associated monomers at the centriole to balance Gorab’s dual role.

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