Pulse-shaped two-photon excitation of a fluorescent base analogue approaches single-molecule sensitivity

Fisher, Rachel S.; Nobis, David; Füchtbauer, Anders Foller; Bood, Mattias; Grötli, Morten; Wilhelmsson, Marcus; Jones, Anita C.; Magennis, Steven W.

doi:10.1039/c8cp05496g

Cited by 15 publications

(29 citation statements)

References 48 publications

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“…A remaining challenge with the utilization of fluorescent base analogues is their lower brightness ( ϵ Φ F ; molar absorptivity multiplied by the fluorescence quantum yield) compared with conventional external fluorophores such as those mentioned above. However, recent studies show that the brightness gap between internal and external fluorophores is decreasing ( 26–28 ).…”

Section: Introductionmentioning

confidence: 99%

Getting DNA and RNA out of the dark with 2CNqA: a bright adenine analogue and interbase FRET donor

Nogal

Füchtbauer

Bood

et al. 2020

Nucleic Acids Research

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With the central role of nucleic acids there is a need for development of fluorophores that facilitate the visualization of processes involving nucleic acids without perturbing their natural properties and behaviour. Here, we incorporate a new analogue of adenine, 2CNqA, into both DNA and RNA, and evaluate its nucleobase-mimicking and internal fluorophore capacities. We find that 2CNqA displays excellent photophysical properties in both nucleic acids, is highly specific for thymine/uracil, and maintains and slightly stabilises the canonical conformations of DNA and RNA duplexes. Moreover, the 2CNqA fluorophore has a quantum yield in single-stranded and duplex DNA ranging from 10% to 44% and 22% to 32%, respectively, and a slightly lower one (average 12%) inside duplex RNA. In combination with a comparatively strong molar absorptivity for this class of compounds, the resulting brightness of 2CNqA inside double-stranded DNA is the highest reported for a fluorescent base analogue. The high, relatively sequence-independent quantum yield in duplexes makes 2CNqA promising as a nucleic acid label and as an interbase Förster resonance energy transfer (FRET) donor. Finally, we report its excellent spectral overlap with the interbase FRET acceptors qAnitro and tCnitro, and demonstrate that these FRET pairs enable conformation studies of DNA and RNA.

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Section: Introductionmentioning

confidence: 99%

Getting DNA and RNA out of the dark with 2CNqA: a bright adenine analogue and interbase FRET donor

Nogal

Füchtbauer

Bood

et al. 2020

Nucleic Acids Research

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“…This demonstrated the feasibility of single-molecule detection, albeit improvements in brightness were still required. 23 Here we demonstrate that an extended 6-aza-uridine ribonucleoside, DMA th aU (Chart 1), adopts a highly fluorescent form, in which the brightness following three-photon (3P) excitation is over an order of magnitude greater than that of pA under 2P excitation, allowing, for the first time, single-molecule detection via multiphoton excitation. Chart 1.…”

mentioning

confidence: 88%

“…The 2P cross-section (σ 2 ) of DMA th aU in dioxane, measured relative to rhodamine 6G, is 90.0 ± 5.0 GM with a corresponding 2P brightness of 18 GM. This cross-section is higher than that of any other FBA studied previously, including pA (21 GM in ethanol 23 ) and the brightness is three times greater than that of pA. Given the existence of DMA th aU in a highly fluorescent state (albeit with a low population) we were encouraged to pursue single-molecule detection in buffer.…”

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confidence: 96%

“…Furthermore, the magnitude of the calculated 3P cross sections are in agreement with estimated 3P cross sections 29 and those measured for fluorophores of similar size. 30 Next, we examined the limits of detection of DMA th aU in buffer, using fluorescence correlation spectroscopy (FCS) and photon-counting with a multichannel scaler (MCS), similar to our recent work with pA. 23 Excitation powers of 10 mW, where the 3P excitation begins to saturate, gave the best SBR; the pulses were compressed to 8 fs at the focal plane. In FCS measurements there was a striking discrepancy between the known sample concentration and the number of molecules observed in the laser focus.…”

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confidence: 99%

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Single-Molecule Detection of a Fluorescent Nucleobase Analogue via Multiphoton Excitation

Nobis

Fisher

Simmermacher

et al. 2019

J. Phys. Chem. Lett.

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The ability to routinely detect fluorescent analogs of nucleobases at the single-molecule level would create a wealth of opportunities to study nucleic acids. We report the multiphoton-induced fluorescence and single-molecule detection of a dimethylaminesubstituted extended-6-aza-uridine (DMA th aU). We show that DMA th aU can exist in a highly fluorescent form, emitting strongly in the visible region (470-560 nm). Using pulse-shaped broadband Ti:sapphire laser excitation, DMA th aU undergoes two-photon (2P) absorption at low excitation powers, switching to threephoton (3P) absorption at high incident intensity. The assignment of a 3P process is supported by cubic response calculations. Under both 2P and 3P excitation, the single-molecule brightness was over an order of magnitude higher than reported previously for any fluorescent base analog, which facilitated the first singlemolecule detection of an emissive nucleoside with multiphoton excitation.

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“…8,9,[15][16][17] This lack of brightness has rendered them largely unsuitable for singlemolecule fluorescence studies. [18][19][20] Furthermore, with the current rapid development of spatially-resolved transcriptomics and genomics, there is clearly a future need for fluorescent analogues that can act as effective single-molecule probes. 21,22 Conventional fluorophores typically exhibit superior optical properties to fluorescent nucleobase analogues, primarily because of their larger extinction coefficients-sometimes in excess of 10 5 -but they need not be larger molecules.…”

Section: Introductionmentioning

confidence: 99%

Single-molecule fluorescence detection of a tricyclic nucleoside analogue

et al. 2021

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Pulse-shaped two-photon excitation of a fluorescent base analogue approaches single-molecule sensitivity

Abstract: Ultrasensitive detection of DNA is achieved via two-photon excitation of a fluorescent base analogue.

Cited by 15 publications

References 48 publications

Getting DNA and RNA out of the dark with 2CNqA: a bright adenine analogue and interbase FRET donor

Getting DNA and RNA out of the dark with 2CNqA: a bright adenine analogue and interbase FRET donor

Single-Molecule Detection of a Fluorescent Nucleobase Analogue via Multiphoton Excitation

Single-molecule fluorescence detection of a tricyclic nucleoside analogue

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