Tag: Dynamics

Tag results

Format

Format
  • Application note (10)
  • Paper (9)
  • Article (7)
  • Preprint (4)
  • Ebook (3)
  • Press Release (3)
  • Technical note (3)
  • Webinar (2)
  • Video (1)
Applications
  • Protein structure and dynamics (29)
  • Enzymes (24)
  • DNA structure (23)
  • Replication (23)
  • Protein-DNA interactions (22)
  • Protein-RNA interactions (22)
  • Membrane proteins and receptors (21)
  • RNA structure (21)
  • Disordered proteins (20)
  • DNA repair (20)
  • Transcription (18)
  • DNA organisation (17)
  • Molecular motors (17)
  • Quadruplexes / higher order structures (17)
  • DNA origami (16)
  • Riboswitches (16)
  • Antibody-ligand interactions (15)
  • DNA editing (15)
  • Chromatin (14)
  • Phase separation (14)
  • Protein aggregation (14)
  • R-loops (14)
  • PTM detection (13)
  • Ternary complexes, protacs, glues (13)

Technology

Technology
  • smFRET (33)
  • FCS (13)
  • FCCS (6)

Year

Year

Author

Author

Author 2

Author 2

Tags

Tags
Static models only tell half the story. Here, we explore the critical importance of capturing biomolecular dynamics and how mapping these movements links structure to true biological function.
Static models only tell half the story. Here, we explore the critical importance of capturing biomolecular dynamics and how mapping these movements links structure to true biological function.
Static models only tell half the story. Here, we explore the critical importance of capturing biomolecular dynamics and how mapping these movements links structure to true biological function.
Static models only tell half the story. Here, we explore the critical importance of capturing biomolecular dynamics and how mapping these movements links structure to true biological function.
Static models only tell half the story. Here, we explore the critical importance of capturing biomolecular dynamics and how mapping these movements links structure to true biological function.
Static models only tell half the story. Here, we explore the critical importance of capturing biomolecular dynamics and how mapping these movements links structure to true biological function.
Static models only tell half the story. Here, we explore the critical importance of capturing biomolecular dynamics and how mapping these movements links structure to true biological function.
Static models only tell half the story. Here, we explore the critical importance of capturing biomolecular dynamics and how mapping these movements links structure to true biological function.
Static models only tell half the story. Here, we explore the critical importance of capturing biomolecular dynamics and how mapping these movements links structure to true biological function.
Static models only tell half the story. Here, we explore the critical importance of capturing biomolecular dynamics and how mapping these movements links structure to true biological function.
Static models only tell half the story. Here, we explore the critical importance of capturing biomolecular dynamics and how mapping these movements links structure to true biological function.
Static models only tell half the story. Here, we explore the critical importance of capturing biomolecular dynamics and how mapping these movements links structure to true biological function.