Self-assembling SAS-6 Multimer Is a Core Centriole Building Block

Centrioles are conserved microtubule-based organelles with 9-fold symmetry that are essential for cilia and mitotic spindle formation. A conserved structure at the onset of centriole assembly is a “cartwheel” with 9-fold radial symmetry and a central tubule in its core. It remains unclear how the ca...

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Bibliographic Details
Published in:The Journal of biological chemistry 2010-03, Vol.285 (12), p.8759-8770
Main Authors: Gopalakrishnan, Jayachandran, Guichard, Paul, Smith, Andrew H., Schwarz, Heinz, Agard, David A., Marco, Sergio, Avidor-Reiss, Tomer
Format: Article
Language:English
Subjects:
Animals
Animals, Genetically Modified
Caenorhabditis elegans Proteins - physiology
Cartwheel
Cell Biology
Cell Cycle Proteins - physiology
Central Tubule
Centriole
Centrioles - metabolism
Centrosome
Centrosome - ultrastructure
Cilium
Drosophila
Electron microscopy (EM)
Escherichia coli - enzymology
Gene Expression Regulation, Developmental
Green Fluorescent Proteins - chemistry
Microscopy, Electron - methods
Pichia - enzymology
Protein Binding
Recombinant Proteins - chemistry
SAS-6
Spindle Apparatus
Transgenes
Yeast
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Summary:Centrioles are conserved microtubule-based organelles with 9-fold symmetry that are essential for cilia and mitotic spindle formation. A conserved structure at the onset of centriole assembly is a “cartwheel” with 9-fold radial symmetry and a central tubule in its core. It remains unclear how the cartwheel is formed. The conserved centriole protein, SAS-6, is a cartwheel component that functions early in centriole formation. Here, combining biochemistry and electron microscopy, we characterize SAS-6 and show that it self-assembles into stable tetramers, which serve as building blocks for the central tubule. These results suggest that SAS-6 self-assembly may be an initial step in the formation of the cartwheel that provides the 9-fold symmetry. Electron microscopy of centrosomes identified 25-nm central tubules with repeating subunits and show that SAS-6 concentrates at the core of the cartwheel. Recombinant and native SAS-6 self-oligomerizes into tetramers with ∼6-nm subunits, and these tetramers are components of the centrosome, suggesting that tetramers are the building blocks of the central tubule. This is further supported by the observation that elevated levels of SAS-6 in Drosophila cells resulted in higher order structures resembling central tubule morphology. Finally, in the presence of embryonic extract, SAS-6 tetramers assembled into high density complexes, providing a starting point for the eventual in vitro reconstruction of centrioles.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M109.092627