Traction Force Microscopy to Study B Lymphocyte Activation | Zendy

Anita Kumari | Zendy; Judith Pineau | Zendy; AnaMaria LenDuménil | Zendy; Martial Balland | Zendy; Paolo Pierobon | Zendy

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Traction Force Microscopy to Study B Lymphocyte Activation

Author(s) -

Anita Kumari,

Judith Pineau,

AnaMaria LenDuménil,

Martial Balland,

Paolo Pierobon

Publication year - 2020

Publication title -

journal of visualized experiments

Language(s) - Uncategorized

Resource type - Journals

SCImago Journal Rank - 0.596

H-Index - 91

ISSN - 1940-087X

DOI - 10.3791/60947

Subject(s) - traction (geology) , tractive force , biophysics , microscopy , materials science , receptor , rigidity (electromagnetism) , chemistry , nanotechnology , composite material , biology , optics , physics , biochemistry , paleontology , thermodynamics

Traction force microscopy (TFM) enables the measurement of forces produced by a cell on a substrate. This technique infers traction force measurements from an experimentally observed displacement field produced by a cell pulling on an elastic substrate. Here, we adapted TFM to investigate the spatial and temporal structure of the force field exerted by B cells when activated by antigen engagement of the B cell receptor. Gel rigidity, bead density, and protein functionalization must be optimized for the study of relatively small cells (~ 6 µm) that interact with, and respond specifically to ligands for cell surface receptors.

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