Traction Force Microscopy with DNA FluoroCubes
Mortazavi, A.; Jiang, J.; Laric, P.; Helmerich, D.; Seifert, R.; Gavrilovic, S.; Sauer, M.; Sabass, B.
Show abstract
Mechanical forces at the cell-substrate interface govern processes from migration to differentiation, yet mapping these forces at high spatial resolution remains challenging. Traction force microscopy (TFM) addresses this by quantifying substrate deformations using fiducial markers, which are conventionally fluorescent beads. Here, we introduce fluorescently labeled DNA nanostructures (FluoroCubes) as alternative fiducials grafted onto polydimethylsiloxane (PDMS) substrates. Co-anchored with RGD peptides, FluoroCubes remain stably tethered, resist internalization, and enable dense, minimally perturbing labeling. This surface-functionalized platform is compatible with TIRF microscopy and leverages tunable biotin-NeutrAvidin chemistry for precise control of fiducial density. Using a modified multi-channel optical flow algorithm, we achieve improved displacement sensitivity and force reconstruction resolution compared to conventional algorithms. FluoroCube-functionalized substrates provide a reproducible, high-resolution method for traction force mapping and offer a versatile foundation for future integration with DNA-based molecular sensors to probe interfacial forces at biointerfaces.
Matching journals
The top 4 journals account for 50% of the predicted probability mass.