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Abstract
Two-dimensional (2D) materials have attracted tremendous interest as fluorescence quenchers of dye-labeled biomolecules for application in biosensing. Metal-organic framework (MOF) nanosheets, as a new type of 2D material, have rarely been studied as bioanalytical platforms. Herein, we synthesize a series of ultrathin lanthanide-based MOF (MOF-Ln) nanosheets as a dye-labeled aptamer platform. The fluorescence quenching or recovery on the MOF-Ln nanosheets is determined by the charge properties (positive or negative) of the labeled fluorophores. The negatively charged fluorophores experience a fluorescence ‘turn-down followed by turn-down’ process, whereas the positively charged fluorophores experience a fluorescence ‘turn-down followed by turn-up’ process. The interesting fluorescence quenching properties of the MOF-Ln nanosheets make them an excellent two-color sensing platform for the intracellular detection of biomolecules.
Highlights
Two-dimensional (2D) nanomaterials have been attracting extensive research interest due to their unique physical and chemical properties, as well as their potential scientific and technological applications in the fields of gas storage, sensing, electronics, energy conversion and storage, and electrocatalysis.[1]
The formed dye-labeled double-stranded DNA (dsDNA) detached from the Metal-organic framework (MOF)-Ln nanosheets due to the decreased adsorption affinity caused by the rigidity of the double-chain structure, resulting in the recovery of the fluorescence of TAMRA-dsDNA, as already observed in traditional 2D nanoprobes.[26,27]
The fluorescence of single-stranded DNA (ssDNA) labeled with FAM, carrying negative charges, was partially quenched by the MOF-Ln nanosheets
Summary
Two-dimensional (2D) nanomaterials have been attracting extensive research interest due to their unique physical and chemical properties, as well as their potential scientific and technological applications in the fields of gas storage, sensing, electronics, energy conversion and storage, and electrocatalysis.[1]. Lanthanide-based metal-organic framework nanosheets with unique fluorescence quenching properties for two-color intracellular adenosine imaging in living cells The formed dye-labeled dsDNA detached from the MOF-Ln nanosheets due to the decreased adsorption affinity caused by the rigidity of the double-chain structure, resulting in the recovery of the fluorescence of TAMRA-dsDNA, as already observed in traditional 2D nanoprobes.[26,27] the fluorescence of FAMlabeled dsDNA was further quenched unexpectedly.
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