Photoresponsive Formation of an Intermolecular Minimal G‐Quadruplex Motif

Abstract: The ability of three different bifunctional azobenzene linkers to enable the photoreversible formation of a defined intermolecular two-tetrad G-quadruplex upon UV/Vis irradiation was investigated. Circular dichroism and NMR spectroscopic data showed the formation of G-quadruplexes with K(+)  ions at room temperature in all three cases with the corresponding azobenzene linker in an E conformation. However, only the para-para-substituted azobenzene derivative enables photoswitching between a nonpolymorphic, stac… Show more

“…[144,145] Realizing that ATP (adenosine triphosphate) [146,147] and VEGF (vascular epithelial growth factor) [148] are over-expressed in cancer cells, functional all-DNA microcapsules responding to these biomarkers were developed (Figure 7A). In this system, the layer-by-layer hybridization of the DNA scaffolds composed of two units of (28) and (29) and two units of (30) and (29) was used to construct the shells. For the ATP-responsive microcapsules, two DNA scaffolds composed of two strands of (25) hybridized with (26) and of two strands of (27) hybridized with (26) were used to construct the DNA shell by the layer-by-layer hybridization process, where the bridging units (26) included the specific anti-ATP aptamer sequence in a "caged" configuration.…”

“…CaCO 3 microparticles impregnated with the respective substrates were coated with the basic, positively charged PAH layer. The interlayer bridging units (29) included the specific anti-VEGF aptamer sequence. Similarly, by coating the PAH-modified CaCO 3 particles, the VEGF-responsive microcapsule shells were constructed.…”

“…One interesting class of stimuli-responsive DNA-based micro-/nano-carriers includes microcapsules or DNA-based microcapsule-like structures. These [29,30] Copyright 2010, 2016, Wiley-VCH. The present review article addresses recent advances in the synthesis and applications of stimuli-responsive DNA-based microcapsules or microcapsule-like structures.…”

“…The methods to construct the nano-/micro-capsules involve i) the layer-by-layer deposition of signal-reconfigurable DNA shells on drugloaded microparticles acting as templates, followed by dissolution of the core templates; ii) the assembly of three-dimensional capsules composed of reconfigurable DNA origami units; and iii) the synthesis of stimuli-responsive drug-loaded capsules stabilized by DNA−polymer hydrogels. [27][28][29][30] Photoisomerization of the trans-azobenzene units to the cis-azobenzene configuration, which lacks affinity toward the duplex DNA, results in the release of the photoactive units, in the weakening of the duplex structures, and eventually in their separation. The capsules are loaded with fluorescent polymers, metal nanoparticles, proteins or semiconductor quantum dots as drug models, with anti-cancer drugs, e.g., doxorubicin, or with antibodies inhibiting cellular networks or enzymes over-expressed in cancer cells.…”

Synthesis and Applications of Stimuli‐Responsive DNA‐Based Nano‐ and Micro‐Sized Capsules

“…[144,145] Realizing that ATP (adenosine triphosphate) [146,147] and VEGF (vascular epithelial growth factor) [148] are over-expressed in cancer cells, functional all-DNA microcapsules responding to these biomarkers were developed (Figure 7A). In this system, the layer-by-layer hybridization of the DNA scaffolds composed of two units of (28) and (29) and two units of (30) and (29) was used to construct the shells. For the ATP-responsive microcapsules, two DNA scaffolds composed of two strands of (25) hybridized with (26) and of two strands of (27) hybridized with (26) were used to construct the DNA shell by the layer-by-layer hybridization process, where the bridging units (26) included the specific anti-ATP aptamer sequence in a "caged" configuration.…”

“…CaCO 3 microparticles impregnated with the respective substrates were coated with the basic, positively charged PAH layer. The interlayer bridging units (29) included the specific anti-VEGF aptamer sequence. Similarly, by coating the PAH-modified CaCO 3 particles, the VEGF-responsive microcapsule shells were constructed.…”

“…One interesting class of stimuli-responsive DNA-based micro-/nano-carriers includes microcapsules or DNA-based microcapsule-like structures. These [29,30] Copyright 2010, 2016, Wiley-VCH. The present review article addresses recent advances in the synthesis and applications of stimuli-responsive DNA-based microcapsules or microcapsule-like structures.…”

“…The methods to construct the nano-/micro-capsules involve i) the layer-by-layer deposition of signal-reconfigurable DNA shells on drugloaded microparticles acting as templates, followed by dissolution of the core templates; ii) the assembly of three-dimensional capsules composed of reconfigurable DNA origami units; and iii) the synthesis of stimuli-responsive drug-loaded capsules stabilized by DNA−polymer hydrogels. [27][28][29][30] Photoisomerization of the trans-azobenzene units to the cis-azobenzene configuration, which lacks affinity toward the duplex DNA, results in the release of the photoactive units, in the weakening of the duplex structures, and eventually in their separation. The capsules are loaded with fluorescent polymers, metal nanoparticles, proteins or semiconductor quantum dots as drug models, with anti-cancer drugs, e.g., doxorubicin, or with antibodies inhibiting cellular networks or enzymes over-expressed in cancer cells.…”

Synthesis and Applications of Stimuli‐Responsive DNA‐Based Nano‐ and Micro‐Sized Capsules

“…The non-nucleotide spacers has been shown to increase the thermal stability of the structure of duplexes, triplexes or tetraplexes (23–29). They were also implemented in nuclear magnetic resonance (NMR) (30–34) and crystallographic studies (29,35,36) but so far such linkers has not been used to stabilize the native structure of RNA hairpins.…”

Stabilization of RNA hairpins using non-nucleotide linkers and circularization

Switchable DNA Origami Nanostructures and Their Applications