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Tag: Antibody-antigen binding

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Format

Format
  • Application note (9)
  • Paper (9)
  • Article (5)
  • Ebook (3)
  • Press Release (3)
  • Technical note (3)
  • Preprint (2)
  • Webinar (2)
  • Video (1)
Applications
  • Protein structure and dynamics (26)
  • DNA structure (21)
  • Enzymes (21)
  • Protein-DNA interactions (20)
  • Replication (20)
  • Protein-RNA interactions (19)
  • DNA repair (18)
  • RNA structure (18)
  • Disordered proteins (17)
  • Membrane proteins and receptors (17)
  • Transcription (16)
  • DNA organisation (15)
  • Molecular motors (15)
  • Quadruplexes / higher order structures (15)
  • DNA origami (14)
  • Riboswitches (14)
  • DNA editing (13)
  • Antibody-ligand interactions (12)
  • Chromatin (12)
  • Phase separation (12)
  • R-loops (12)
  • PTM detection (11)
  • Protein aggregation (10)
  • Ternary complexes, protacs, glues (10)

Technology

Technology
  • smFRET (30)
  • FCS (10)
  • FCCS (5)

Year

Year

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Author

Author 2

Author 2

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Thumbnail for Embracing single-molecule biophysics in cell lysates and serum
Embracing single-molecule biophysics in cell lysates or serum
Explore the 'messy middle' of biophysics, where cell lysates and serum are combined with single-molecule sensitivity to preserve biological context.
Thumbnail for Embracing single-molecule biophysics in cell lysates and serum
Embracing single-molecule biophysics in cell lysates or serum
Explore the 'messy middle' of biophysics, where cell lysates and serum are combined with single-molecule sensitivity to preserve biological context.
Thumbnail for Embracing single-molecule biophysics in cell lysates and serum
Embracing single-molecule biophysics in cell lysates or serum
Explore the 'messy middle' of biophysics, where cell lysates and serum are combined with single-molecule sensitivity to preserve biological context.
Thumbnail for Embracing single-molecule biophysics in cell lysates and serum
Embracing single-molecule biophysics in cell lysates or serum
Explore the 'messy middle' of biophysics, where cell lysates and serum are combined with single-molecule sensitivity to preserve biological context.
Thumbnail for Embracing single-molecule biophysics in cell lysates and serum
Embracing single-molecule biophysics in cell lysates or serum
Explore the 'messy middle' of biophysics, where cell lysates and serum are combined with single-molecule sensitivity to preserve biological context.
Thumbnail for Embracing single-molecule biophysics in cell lysates and serum
Embracing single-molecule biophysics in cell lysates or serum
Explore the 'messy middle' of biophysics, where cell lysates and serum are combined with single-molecule sensitivity to preserve biological context.
Thumbnail for Embracing single-molecule biophysics in cell lysates and serum
Embracing single-molecule biophysics in cell lysates or serum
Explore the 'messy middle' of biophysics, where cell lysates and serum are combined with single-molecule sensitivity to preserve biological context.
Thumbnail for Embracing single-molecule biophysics in cell lysates and serum
Embracing single-molecule biophysics in cell lysates or serum
Explore the 'messy middle' of biophysics, where cell lysates and serum are combined with single-molecule sensitivity to preserve biological context.
Thumbnail for Embracing single-molecule biophysics in cell lysates and serum
Embracing single-molecule biophysics in cell lysates or serum
Explore the 'messy middle' of biophysics, where cell lysates and serum are combined with single-molecule sensitivity to preserve biological context.
Thumbnail for Embracing single-molecule biophysics in cell lysates and serum
Embracing single-molecule biophysics in cell lysates or serum
Explore the 'messy middle' of biophysics, where cell lysates and serum are combined with single-molecule sensitivity to preserve biological context.
Thumbnail for Embracing single-molecule biophysics in cell lysates and serum
Embracing single-molecule biophysics in cell lysates or serum
Explore the 'messy middle' of biophysics, where cell lysates and serum are combined with single-molecule sensitivity to preserve biological context.
Thumbnail for Embracing single-molecule biophysics in cell lysates and serum
Embracing single-molecule biophysics in cell lysates or serum
Explore the 'messy middle' of biophysics, where cell lysates and serum are combined with single-molecule sensitivity to preserve biological context.