Visible Fluorescent Light-up Probe for DNA Three-Way Junctions Provides Host–Guest Biosensing Applications

Riesen, Abigail J Van; Le, Jennifer M.; Slavkovic, Sladjana; Churcher, Zachary R.; Shoara, Aron A.; Johnson, Phyllis E.; Manderville, Richard A.

doi:10.1021/acsabm.1c00431

Cited by 14 publications

(8 citation statements)

References 46 publications

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“…48 Our interest in MN4 and other 3WJ DNA aptamers, stems from our recent finding that phenolic merocyanine dyes bind selectively to 3WJs to provide an impressive turn-on fluorescence response. 50 The free dyes can be utilized to detect alkaloid binding through host-guest platforms, in which alkaloid binding displaces the merocyanine dye from the 3WJ to elicit a turn-off fluorescence response. 50,51…”

Section: Resultsmentioning

confidence: 99%

“…48 Our interest in MN4 and other 3WJ DNA aptamers, stems from our recent nding that phenolic merocyanine dyes bind selectively to 3WJs to provide an impressive turn-on uorescence response. 50 The free dyes can be utilized to detect alkaloid binding through host-guest platforms, in which alkaloid binding displaces the merocyanine dye from the 3WJ to elicit a turn-off uorescence response. 50,51 To employ an FMR chalcone for quinine detection using MN4, the aptamer was split into two fragments by removing three loop residues from stem 2 to afford an 11mer and 22mer sequence.…”

Section: Biosensing Applicationmentioning

confidence: 99%

“…50 The free dyes can be utilized to detect alkaloid binding through host-guest platforms, in which alkaloid binding displaces the merocyanine dye from the 3WJ to elicit a turn-off uorescence response. 50,51 To employ an FMR chalcone for quinine detection using MN4, the aptamer was split into two fragments by removing three loop residues from stem 2 to afford an 11mer and 22mer sequence. The An6HI probe was inserted into the G9 position (X) of the 11mer, with anking A and G bases with the probe opposite C (Fig.…”

Section: Biosensing Applicationmentioning

confidence: 99%

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A modular aldol approach for internal fluorescent molecular rotor chalcone surrogates for DNA biosensing applications

et al. 2023

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Section: Resultsmentioning

confidence: 99%

Section: Biosensing Applicationmentioning

confidence: 99%

Section: Biosensing Applicationmentioning

confidence: 99%

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A modular aldol approach for internal fluorescent molecular rotor chalcone surrogates for DNA biosensing applications

et al. 2023

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“…For comparison, free dye assays utilizing hemicyanines and MN4 to observe quinine binding afford a turn-off emission response through dye displacement by the quinine target. 47 Turn-off fluorescent platforms are not advantageous for trace analyte detection due to their inability to provide a detectable signal change in contrast to the high background emission. 48…”

Section: Resultsmentioning

confidence: 99%

On-Strand Aldehyde Capture by an Indanone Building Block: A Modular Aldol Approach for Fluorescent Molecular Rotor Nucleobase Surrogates

Johnson

Murray

Bycraft

et al. 2022

Preprint

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Fluorescent molecular rotors (FMRs) are critical tools for monitoring nucleic acid structure and function. Many valuable probes are capable of sitespecific insertion into oligonucleotides, although the methods of doing so can be arduous and lack modularity. Development of modular and more user amenable insertion methods is thus crucial to expand the biotechnological applications of oligonucleotides in what is a rapidly expanding field. Herein we report the utility of 6-hydroxy-indanone (6HI) with a glycol backbone for on-strand aldehyde capture as a modular aldol approach with synthetic ease for site-specific insertion of internal FMRs. The 6HI phosphoramidite is produced in two steps and inserted into DNA using solid-phase synthesis. On-strand aldol with aromatic aldehydes containing N-donors proceeds in quantitative yield via sodium hydroxide to create a highly functional and unique library of FMR chalcones with emissions that span the visible region (em 490- 680 nm). The FMRs provide turn-on fluorescence (Irel, 2-75-fold) upon hybridization with probe brightness up to 15,000 cm-1M-1 . The library also contains FRET pairs and dual emission probes, suitable for ratiometric sensing. The simplicity and functionality of the 6HI building block permits its future wide-spread use in a range of biosensing applications.

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“…This aptamer also tightly binds a range of other quinine-based ligands including amodiaquine, chloroquine and mefloquine 9 . Additionally, this aptamer binds levamisole weakly 10 and also binds a fluorescent light-up compound (FPhOBtz) that specifically binds DNA three-way junctions 11 . The MN4 construct of this aptamer (Fig.…”

Section: Introductionmentioning

confidence: 99%

DNA binding by the antimalarial compound artemisinin

Slavkovic

Shoara

Churcher

et al. 2022

Sci Rep

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Artemisinin (ART) is a vital medicinal compound that is used alone or as part of a combination therapy against malaria. ART is thought to function by attaching to heme covalently and alkylating a range of proteins. Using a combination of biophysical methods, we demonstrate that ART is bound by three-way junction and duplex containing DNA molecules. Binding of ART by DNA is first shown for the cocaine-binding DNA aptamer and extensively studied using this DNA molecule. Isothermal titration calorimetry methods show that the binding of ART is both entropically and enthalpically driven at physiological NaCl concentration. Native mass spectrometry methods confirm DNA binding and show that a non-covalent complex is formed. Nuclear magnetic resonance spectroscopy shows that ART binds at the three-way junction of the cocaine-binding aptamer, and that binding results in the folding of the structure-switching variant of this aptamer. This structure-switching ability was exploited using the photochrome aptamer switch assay to demonstrate that ART can be detected using this biosensing assay. This study is the first to demonstrate the DNA binding ability of ART and should lay the foundation for further work to study implications of DNA binding for the antimalarial activity of ART.

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Visible Fluorescent Light-up Probe for DNA Three-Way Junctions Provides Host–Guest Biosensing Applications

Cited by 14 publications

References 46 publications

A modular aldol approach for internal fluorescent molecular rotor chalcone surrogates for DNA biosensing applications

A modular aldol approach for internal fluorescent molecular rotor chalcone surrogates for DNA biosensing applications

On-Strand Aldehyde Capture by an Indanone Building Block: A Modular Aldol Approach for Fluorescent Molecular Rotor Nucleobase Surrogates

DNA binding by the antimalarial compound artemisinin

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