2023
DOI: 10.1002/cphc.202300175
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Bleaching‐resistant, Near‐continuous Single‐molecule Fluorescence and FRET Based on Fluorogenic and Transient DNA Binding

Abstract: Photobleaching of fluorescent probes limits the observation span of typical single‐molecule fluorescence measurements and hinders observation of dynamics at long timescales. Here, we present a general strategy to circumvent photobleaching by replenishing fluorescent probes via transient binding of fluorogenic DNAs to complementary DNA strands attached to a target molecule. Our strategy allows observation of near‐continuous single‐molecule fluorescence for more than an hour, a timescale two orders of magnitude … Show more

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Cited by 8 publications
(4 citation statements)
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“…iMAX FRET has many advantages over established techniques. First, as we use the stochastic exchange scheme for probing all possible points in a molecule with otherwise identical probes, the imaging time can be cut down considerably compared to other DNA hybridization-based imaging techniques. ,, Probe-labeled samples can be prepared within 24 h, while weak-binder-based measurement can be completed in as little as 2 min. Second, iMAX FRET offers simplicity in sample preparation, circumventing the requirements associated with sample preparation required for other methods, such as crystallization.…”
Section: The Principle Of Imax Fretmentioning
confidence: 99%
See 1 more Smart Citation
“…iMAX FRET has many advantages over established techniques. First, as we use the stochastic exchange scheme for probing all possible points in a molecule with otherwise identical probes, the imaging time can be cut down considerably compared to other DNA hybridization-based imaging techniques. ,, Probe-labeled samples can be prepared within 24 h, while weak-binder-based measurement can be completed in as little as 2 min. Second, iMAX FRET offers simplicity in sample preparation, circumventing the requirements associated with sample preparation required for other methods, such as crystallization.…”
Section: The Principle Of Imax Fretmentioning
confidence: 99%
“…Unlike hitherto reported methods that require prior structural knowledge to interpret data, iMAX FRET is the first method that enables ab initio structural analysis solely from smFRET data. The unique “one-pot measurement scheme” for stochastic multipoint sampling, i.e., no multiple repeated measurement with buffer exchange required, is realized by repurposing the probe exchange scheme, which has been utilized in recent studies to overcome photobleaching of organic dyes for long-term kinetics measurement. , Using our newly developed software pipeline, we show that iMAX FRET data can determine up to six distances from four positions in 3D space, from which the conformation of a molecule can be reconstructed through geometrical modeling. iMAX FRET provides a comprehensive understanding of structural heterogeneity within a biological sample.…”
Section: The Principle Of Imax Fretmentioning
confidence: 99%
“…Single-molecule Förster resonance energy transfer (smFRET) experiments are a cornerstone in the investigation of biomolecular dynamics, as they enable the observation of the molecule of interest “in action”, specifically within its natural environment, and give a real-time movie that can span time scales from milliseconds to minutes or in some cases even hours . Crucially, although methods enabling access to faster time scales through correlation techniques exist, , time-resolving individual rare events, such as the rapid jumps across the barriers between two conformational states (e.g., protein or nucleic acid folding), require very high count rates from single molecules. , These transition paths have gained increasing interest, and smFRET experiments have been playing a major role in revealing the nature and time scales of these paths. , However, the photon count rate (PCR) required for accessing the relevant microsecond time scale mandates the use of high excitation intensities, leading to saturation and increased photobleaching, which makes the task of measuring these transition paths very challenging.…”
Section: Introductionmentioning
confidence: 99%
“…Single-molecule Förster Resonance Energy Transfer (smFRET) experiments are a cornerstone in the investigation of biomolecular dynamics [1] as they enable the observation of the molecule of interest ‘in action’, specifically within its natural environment, and give a real-time movie that can span timescales from milliseconds to minutes or in some cases even hours [2]. Crucially, although methods enabling access to faster timescales through correlation techniques exist [3, 4] time-resolving individual rare events, such as the rapid jumps across the barriers between two conformational states (e.g.…”
Section: Introductionmentioning
confidence: 99%