Author
Listed:
- F. Esra Demircioglu
(Massachusetts Institute of Technology)
- Weili Zheng
(University of Virginia)
- Alexander J. McQuown
(Harvard University)
- Nolan K. Maier
(Massachusetts Institute of Technology
Whitehead Institute for Biomedical Research)
- Nicki Watson
(The Whitehead Institute)
- Iain M. Cheeseman
(Massachusetts Institute of Technology
Whitehead Institute for Biomedical Research)
- Vladimir Denic
(Harvard University)
- Edward H. Egelman
(University of Virginia)
- Thomas U. Schwartz
(Massachusetts Institute of Technology)
Abstract
TorsinA is an ER-resident AAA + ATPase, whose deletion of glutamate E303 results in the genetic neuromuscular disease primary dystonia. TorsinA is an unusual AAA + ATPase that needs an external activator. Also, it likely does not thread a peptide substrate through a narrow central channel, in contrast to its closest structural homologs. Here, we examined the oligomerization of TorsinA to get closer to a molecular understanding of its still enigmatic function. We observe TorsinA to form helical filaments, which we analyzed by cryo-electron microscopy using helical reconstruction. The 4.4 Å structure reveals long hollow tubes with a helical periodicity of 8.5 subunits per turn, and an inner channel of ~ 4 nm diameter. We further show that the protein is able to induce tubulation of membranes in vitro, an observation that may reflect an entirely new characteristic of AAA + ATPases. We discuss the implications of these observations for TorsinA function.
Suggested Citation
F. Esra Demircioglu & Weili Zheng & Alexander J. McQuown & Nolan K. Maier & Nicki Watson & Iain M. Cheeseman & Vladimir Denic & Edward H. Egelman & Thomas U. Schwartz, 2019.
"The AAA + ATPase TorsinA polymerizes into hollow helical tubes with 8.5 subunits per turn,"
Nature Communications, Nature, vol. 10(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-11194-w
DOI: 10.1038/s41467-019-11194-w
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