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Completed HORIZON European Commission

in situ Structure Determination of Actin-binding Proteins Through a Novel Cryo-electron Microscopy Workflow


Funder European Commission
Recipient Organization Institute of Science and Technology Austria
Country Austria
Start Date Apr 01, 2023
End Date Mar 31, 2025
Duration 730 days
Number of Grantees 1
Roles Coordinator
Data Source European Commission
Grant ID 101108395
Grant Description

Cell motility is driven by a complex network of force-generating biological machinery.

The key component in this machinery is the dynamic network of filamentous actin (F-actin) and actin binding proteins (ABPs) which maintain and regulate the network.

However, structural information for many ABP-actin complexes, as well as their in situ spatial distribution remain elusive.

This is because ABPs cannot be easily studied in isolation, often exhibiting structural stability only when embedded in a complex filamentous network found within cells. This has hindered a complete understanding of actin network regulation in cell migration.

Addressing this important question requires understanding exactly how ABPs select F-actin, and conversely how F-actin geometry recruits specific ABPs.

Cryo-electron tomography (cryo-ET) can reveal both cellular ultrastructure and molecular details, but often is lower resolution than a single particle cryo-EM approach. Thus, innovative methods remain key to drive advancement in understanding in situ structures.

In this fellowship I will combine my expertise of single particle cryo-electron microscopy with expertise of cryo-ET in the Schur lab to develop a novel hybrid single particle cryo-ET approach in order to reveal high-resolution structures and contextual information of ABPs bound to F-actin directly within cellular protrusions.

ISTA is the ideal research institute due to abundant access to high-end electron microscopes necessary for methods development.

The outcome of this action are tools for high resolution in situ structure determination and a better understanding of cell migration, a process deeply rooted in malignant metastasis. Results will be disseminated through key research conferences and high-impact open-access publications.

Communication activities will be achieved through 3D rendered visual scientific illustrations targeting social media platforms and institute-organized public outreach events.

All Grantees

Institute of Science and Technology Austria

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