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  • Paper (8)
  • Application note (5)
  • Preprint (3)
  • Press Release (3)
  • Ebook (2)
  • Webinar (2)
  • Technical note (1)
  • Video (1)
Applications
  • Protein structure and dynamics (16)
  • DNA structure (11)
  • Enzymes (10)
  • Protein-DNA interactions (10)
  • DNA repair (9)
  • Protein-RNA interactions (9)
  • Replication (9)
  • RNA structure (9)
  • Disordered proteins (8)
  • Membrane proteins and receptors (8)
  • Molecular motors (8)
  • Quadruplexes / higher order structures (7)
  • Riboswitches (7)
  • Transcription (7)
  • Antibody-ligand interactions (6)
  • DNA organisation (6)
  • DNA origami (6)
  • Phase separation (6)
  • Chromatin (5)
  • DNA editing (5)
  • PTM detection (5)
  • R-loops (5)
  • Ternary complexes, protacs, glues (5)
  • Protein aggregation (4)

Technology

Technology
  • smFRET (19)
  • FCS (4)
  • FCCS (1)

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Delineation of a novel assembly intermediate in Rous sarcoma virus integration pathway
EI-FLEX data revealed a transient tetrameric intermediate in retroviral DNA integration.
Understanding protein-dependent RNA pseudoknot formation with single-molecule FRET on the EI-FLEX system
Dive into the mechanisms of protein-dependent pseudoknot formation, and see how smFRET adds crucial dynamics to structural data.
Kinesin-1 is highly flexible and adopts an open conformation in the absence of cargo
Discover how EI-FLEX smFRET reveals pH-driven DNA triplex nanoswitching and confirms that dynamic DNA machines retain fast, reversible conformational control even when densely immobilised on electronic surfaces.
Application note – Antibody-antigen binding affinity screening using Fluorescence Correlation Spectroscopy on the EI-FLEX
In this application note, we demonstrate how fluorescence correlation spectroscopy (FCS) can be performed using the EI-FLEX to assess antibody-antigen binding affinities and generate Kd values.
Application note – Quantifying ternary complex formation using fluorescence cross-correlation spectroscopy on the EI-FLEX system
FCCS is an ideal technique for direct quantification of ternary complex formation. See how the EI-FLEX was used to rapidly generate hook plots and derive time-resolved kinetics in a model DNA oligo system.
Application note – Monitoring biomolecular conformational dynamics with the EI-FLEX system: A quantitative smFRET approach
Discover how smFRET can capture conformational dynamics on the EI-FLEX Pro using a DNA hairpin model system, measuring the influence of salt on opening and closing rates.
Beyond the average: The EI-FLEX Pro makes high-throughput single-molecule assays industry-ready
In this press release, we announce the launch of the EI-FLEX Pro and EI-FLEX Pro HT, bringing automated, high-throughput single-molecule analysis to the benchtop and enabling industry-ready workflows across drug discovery, biotech, and academic research.
Application note – Measuring nanoscale distances with single-molecule FRET on the EI-FLEX system
In this application note, we demonstrate how single-molecule FRET can be used to measure nanoscale distances on the EI-FLEX system using a model DNA duplex.
Technical note – Capturing accurate single-molecule FRET measurements on the EI-FLEX platform
In this technical note, we explore several key components of a confocal FRET experiment that ensure single-molecule sensitivity and accurate determination of FRET efficiencies during acquisition and analysis.
Mastering smFRET: A practical handbook for researchers
Discover everything you need to understand single-molecule FRET and use it to advance your research. Download the handbook now.
Electronic actuation of surface-immobilised, pH-responsive DNA nanoswitches
Discover how EI-FLEX smFRET reveals pH-driven DNA triplex nanoswitching and confirms that dynamic DNA machines retain fast, reversible conformational control even when densely immobilised on electronic surfaces.
The transitional kinetics between open and closed Rep structures can be tuned by salt via two intermediate states
Discover how single-molecule FRET data on the EI-FLEX helped to uncover two previously hidden intermediate conformational states of a bacterial Rep helicase, overcoming surface-induced artefacts to reveal its dynamic mechanism in action.

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