Litcius/Paper detail

Flexible Fitting to Infer Atomistic-Precision Models of Large-Amplitude Conformational Dynamics in Biomolecules from High-Speed Atomic Force Microscopy Imaging

Romain Amyot, Osamu Miyashita, Xuan Wu, Kazusa Takeda, Noriyuki Kodera, Hiroki Konno, Florence Tama, Holger Flechsig

2025ACS Nano9 citationsDOIOpen Access PDF

Abstract

High-speed atomic force microscopy (HS-AFM) experiments allow direct observation of biomolecular dynamics at the single-molecule level, acquiring a large amount of topographic imaging data that visualizes changes in the molecular surface during functional activity over an extended period of time. Since images have no atomistic resolution, a major challenge has been to develop post-experimental computational methods to infer atomistic information from measurements. The recently developed NMFF-AFM flexible fitting method provides a computationally efficient approach promising to infer atomistic-precision models of conformational dynamics from resolution-limited AFM imaging data. We report the software integration of this method into the well-established BioAFMviewer platform and demonstrate its first applications to experimental HS-AFM imaging data. To facilitate applications, we developed a direct workflow from raw experimental AFM data to the visualization and analysis of fitting results. The presented applications to experimental data of a single protein domain, a protein complex, and a megadalton-sized protein filament demonstrate the versatility of NMFF-AFM modeling to reproduce large-amplitude conformational motions of biomolecular dynamics from HS-AFM imaging. As a first step toward automated large-scale analysis of AFM imaging data, we furthermore demonstrate reconstruction of an atomistic molecular movie of protein dynamics, involving large-amplitude conformational transitions, from a measured HS-AFM movie sequence. Implementation of flexible fitting within the stand-alone user-friendly interactive BioAFMviewer software provides the opportunity for a broad range of applications to facilitate the understanding of resolution-limited HS-AFM measurements.

Topics & Concepts

BiomoleculeAtomic force microscopyVisualizationWorkflowMolecular dynamicsComputer scienceBiomolecular structureBiological systemAtomic modelSoftwareProtein dynamicsNanotechnologyExperimental dataMolecular biophysicsDynamics (music)MicroscopyMaterials scienceProtein structureRange (aeronautics)Computational scienceMolecular conformationStructural biologySoftware toolMolecular imagingComputational modelConformational ensemblesChemistryForce Microscopy Techniques and ApplicationsAdvanced Electron Microscopy Techniques and Applicationsthermodynamics and calorimetric analyses
Flexible Fitting to Infer Atomistic-Precision Models of Large-Amplitude Conformational Dynamics in Biomolecules from High-Speed Atomic Force Microscopy Imaging | Litcius