An intramolecular catalytic hairpin assembly on a DNA tetrahedron for mRNA imaging in living cells: improving reaction kinetics and signal stability

Abstract: An intramolecular catalytic hairpin assembly is implemented on a DNA tetrahedron for mRNA imaging in living cells. The spatial confinement effect enables the acceleration of target-triggered signal generation, with excellent cell permeability and FRET signal stability.

“…[ 40–42 ] The unique features of DNA tetrahedra include their structural rigidity, the ability to control their sizes, [ 43,44 ] and the feasibility to dictate the spatial tethering of nucleic acids to the edges or corners of the tetrahedra. [ 45–47 ] Different applications of DNA tetrahedra were reported, including their use as functional units for sensing, [ 48,49 ] logic gate operations, [ 50 ] intracellular imaging, [ 51–54 ] delivery of therapeutic agents, [ 55–57 ] and the assembly of chiral building blocks for nanofabrication and chiroplasmonic. [ 58 ]…”

Triggered Dimerization and Trimerization of DNA Tetrahedra for Multiplexed miRNA Detection and Imaging of Cancer Cells

“…[ 40–42 ] The unique features of DNA tetrahedra include their structural rigidity, the ability to control their sizes, [ 43,44 ] and the feasibility to dictate the spatial tethering of nucleic acids to the edges or corners of the tetrahedra. [ 45–47 ] Different applications of DNA tetrahedra were reported, including their use as functional units for sensing, [ 48,49 ] logic gate operations, [ 50 ] intracellular imaging, [ 51–54 ] delivery of therapeutic agents, [ 55–57 ] and the assembly of chiral building blocks for nanofabrication and chiroplasmonic. [ 58 ]…”

Triggered Dimerization and Trimerization of DNA Tetrahedra for Multiplexed miRNA Detection and Imaging of Cancer Cells

“…GSH is depleted by MDN to form manganese ion (Mn 2+ ) and glutathione disulfide (GSSG), 7,26,29 in which the FRs are released with a corresponding fluorescence recovery, thus, enabling the detection of the activatable NER. 30,31 26 and its sheet structure was verified by TEM (Figure 1c, left). It was also characterized by UV-Vis absorption and energy dispersive spectrometer (EDS) spectrum (Supporting Information Figure S1); its size and zeta potential were about 125 nm (Supporting Information Figure S2, black curve) and −27.9 mV (Figure 1d, black curve), as measured by DLS.…”

An Activatable Nanoenzyme Reactor for Coenhanced Chemodynamic and Starving Therapy Against Tumor Hypoxia and Antioxidant Defense System

“…The AuNP@Pt‐S nanoflare was then used to detect the overexpressed miRNA‐21 in cancer cells . Selective lighting up of the nanoflare in two overexpressed cancer cells was achieved by miRNA‐21‐triggered imaging (Supporting Information, Figure S26).…”

Pt–S Bond‐Mediated Nanoflares for High‐Fidelity Intracellular Applications by Avoiding Thiol Cleavage