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Cryo-EM of multiple cage architectures reveals a universal mode of clathrin self-assembly

Cryo-EM of multiple cage architectures reveals a universal mode of clathrin self-assembly
Cryo-EM of multiple cage architectures reveals a universal mode of clathrin self-assembly
Clathrin forms diverse lattice and cage structures that change size and shape rapidly in response to the needs of eukaryotic cells during clathrin-mediated endocytosis and intracellular trafficking. We present the cryo-EM structure and molecular model of assembled porcine clathrin, providing insights into interactions that stabilize key elements of the clathrin lattice, namely, between adjacent heavy chains, at the light chain–heavy chain interface and within the trimerization domain. Furthermore, we report cryo-EM maps for five different clathrin cage architectures. Fitting structural models to three of these maps shows that their assembly requires only a limited range of triskelion leg conformations, yet inherent flexibility is required to maintain contacts. Analysis of the protein–protein interfaces shows remarkable conservation of contact sites despite architectural variation. These data reveal a universal mode of clathrin assembly that allows variable cage architecture and adaptation of coated vesicle size and shape during clathrin-mediated vesicular trafficking or endocytosis.
Clathrin, cryoelectron microscopy, protein structure, endocytosis
1545-9993
890-898
Morris, Kyle
da337ec3-3be0-4d48-b42a-5aebcf65dd3d
Jones, Joseph
eabb6abb-fc68-4319-85bf-72b08cafd570
Halebian, Mary
def60ebe-7db2-4d67-b9d4-8abe458a7983
Wu, Shenping
ae761860-1ff6-4ec8-adae-a76eaf6d289d
Baker, Michael
dcfe236e-a8ab-49b7-b596-fc9bd65e3969
Armanche, Jean-Paul
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Ibarra, Amaurys
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Session, Richard
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Cameron, Alexander
638593f5-90fb-45ad-afe2-aace4f56e8ae
Cheng, Yifan
4683fcc1-2449-4eda-8f7d-60c78870f16d
Smith, Corinne
5be1134c-b789-458a-b1a7-688e3485e498
Morris, Kyle
da337ec3-3be0-4d48-b42a-5aebcf65dd3d
Jones, Joseph
eabb6abb-fc68-4319-85bf-72b08cafd570
Halebian, Mary
def60ebe-7db2-4d67-b9d4-8abe458a7983
Wu, Shenping
ae761860-1ff6-4ec8-adae-a76eaf6d289d
Baker, Michael
dcfe236e-a8ab-49b7-b596-fc9bd65e3969
Armanche, Jean-Paul
531fda6b-d6ef-4ae2-8ad3-d709779232c7
Ibarra, Amaurys
999b55d4-9505-4e99-a662-1df882377fb1
Session, Richard
5f9797b6-e5ec-444a-b79c-55d3c4f9d397
Cameron, Alexander
638593f5-90fb-45ad-afe2-aace4f56e8ae
Cheng, Yifan
4683fcc1-2449-4eda-8f7d-60c78870f16d
Smith, Corinne
5be1134c-b789-458a-b1a7-688e3485e498

Morris, Kyle, Jones, Joseph, Halebian, Mary, Wu, Shenping, Baker, Michael, Armanche, Jean-Paul, Ibarra, Amaurys, Session, Richard, Cameron, Alexander, Cheng, Yifan and Smith, Corinne (2019) Cryo-EM of multiple cage architectures reveals a universal mode of clathrin self-assembly. Nature Structural & Molecular Biology, 26, 890-898. (doi:10.1038/s41594-019-0292-0).

Record type: Article

Abstract

Clathrin forms diverse lattice and cage structures that change size and shape rapidly in response to the needs of eukaryotic cells during clathrin-mediated endocytosis and intracellular trafficking. We present the cryo-EM structure and molecular model of assembled porcine clathrin, providing insights into interactions that stabilize key elements of the clathrin lattice, namely, between adjacent heavy chains, at the light chain–heavy chain interface and within the trimerization domain. Furthermore, we report cryo-EM maps for five different clathrin cage architectures. Fitting structural models to three of these maps shows that their assembly requires only a limited range of triskelion leg conformations, yet inherent flexibility is required to maintain contacts. Analysis of the protein–protein interfaces shows remarkable conservation of contact sites despite architectural variation. These data reveal a universal mode of clathrin assembly that allows variable cage architecture and adaptation of coated vesicle size and shape during clathrin-mediated vesicular trafficking or endocytosis.

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More information

Published date: 3 October 2019
Keywords: Clathrin, cryoelectron microscopy, protein structure, endocytosis
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Identifiers

Local EPrints ID: 454903
URI: http://eprints.soton.ac.uk/id/eprint/454903
DOI: doi:10.1038/s41594-019-0292-0
ISSN: 1545-9993
PURE UUID: 9a56a567-3baa-40d2-a595-17c4b450396d

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Date deposited: 01 Mar 2022 17:42
Last modified: 16 Mar 2024 13:44

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Contributors

Author: Kyle Morris
Author: Joseph Jones
Author: Mary Halebian
Author: Shenping Wu
Author: Michael Baker
Author: Jean-Paul Armanche
Author: Amaurys Ibarra
Author: Richard Session
Author: Alexander Cameron
Author: Yifan Cheng
Author: Corinne Smith

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