Research Areas - (1) High-Speed AFM Nucleoprotein Imaging

Full path: Biology > Biophysics > Quantum Biology / Biosensing > Single-Molecule DNA/Chromatin Biophysics > High-Speed AFM Nucleoprotein Imaging

Department(s)/lab(s): Physics and Astronomy | Vanderlinden Lab @ Edinburgh
Summary:

Willem Vanderlinden uses high-resolution biophysical tools to study protein-nucleic acid interactions. Research: (1) magnetic tweezers for pN-scale force and torque measurements on single DNA molecules and nucleoprotein complexes during retroviral integration, DNA supercoiling, and chromatin remodelling; (2) high-speed AFM imaging of nucleoprotein complexes and chromosomal organisation; (3) quantitative single-molecule statistical analysis of DNA topology. His approach provides cutting-edge spatial resolution to study chromatin biophysics and mobile DNA elements at the single-molecule level.