Add to ORKGIntercalation of drug molecules into synthetic DNA nanostructures formed through self-assembled origami has been postulated as a valuable future method for targeted drug delivery. This is due to the excellent biocompatibility of synthetic DNA nanostructures, and high potential for flexible programmability including facile drug release into or near to target cells. Such favourable properties may enable high initial loading and efficient release for a predictable number of drug molecules per nanostructure carrier, important for efficient delivery of safe and effective drug doses to minimise non-specific release away from target cells. However, basic questions remain as to how intercalation-mediated loading depends on the DNA carrier structure...
Abstract: DNA is a stable and biocompatible molecule due to its chemical and physical properties. Re...
DNA-based nanostructures are actively gaining interest as tools for biomedical and therapeutic appli...
In the assembly of DNA nanostructures, the specificity of Watson–Crick base pairing is used to contr...
DNA origami nanostructures are regarded as powerful and versatile vehicles for targeted drug deliver...
DNA origami is a DNA-based nanotechnology that utilizes programmed combinations of short complementa...
With the introduction of the DNA origami technique, it became possible to rapidly synthesize almost ...
DNA nanotechnology is an emerging and exciting field, and represents a forefront frontier for the bi...
DNA origami is a robust method for the creation of nanostructures with arbitrary shapes, whereby a l...
Doxorubicin (DOX) is a common drug in cancer chemotherapy, and its high DNA-binding affinity can be ...
DNA origami nanostructures have tremendous potential to serve as versatile platforms in selfassembly...
DNA origami nanostructures have tremendous potential to serve as versatile platforms in self-assembl...
DNA nanotechnology provides an excellent foundation for diverse nanoscale structures that can be use...
DNA nanotechnology provides an excellent foundation for diverse nanoscale structures that can be use...
DNA origami nanostructures are widely employed in various areas of fundamental and applied research....
The DNA origami technology holds great promise for the assembly of nanoscopic technological devices ...
Abstract: DNA is a stable and biocompatible molecule due to its chemical and physical properties. Re...
DNA-based nanostructures are actively gaining interest as tools for biomedical and therapeutic appli...
In the assembly of DNA nanostructures, the specificity of Watson–Crick base pairing is used to contr...
DNA origami nanostructures are regarded as powerful and versatile vehicles for targeted drug deliver...
DNA origami is a DNA-based nanotechnology that utilizes programmed combinations of short complementa...
With the introduction of the DNA origami technique, it became possible to rapidly synthesize almost ...
DNA nanotechnology is an emerging and exciting field, and represents a forefront frontier for the bi...
DNA origami is a robust method for the creation of nanostructures with arbitrary shapes, whereby a l...
Doxorubicin (DOX) is a common drug in cancer chemotherapy, and its high DNA-binding affinity can be ...
DNA origami nanostructures have tremendous potential to serve as versatile platforms in selfassembly...
DNA origami nanostructures have tremendous potential to serve as versatile platforms in self-assembl...
DNA nanotechnology provides an excellent foundation for diverse nanoscale structures that can be use...
DNA nanotechnology provides an excellent foundation for diverse nanoscale structures that can be use...
DNA origami nanostructures are widely employed in various areas of fundamental and applied research....
The DNA origami technology holds great promise for the assembly of nanoscopic technological devices ...
Abstract: DNA is a stable and biocompatible molecule due to its chemical and physical properties. Re...
DNA-based nanostructures are actively gaining interest as tools for biomedical and therapeutic appli...
In the assembly of DNA nanostructures, the specificity of Watson–Crick base pairing is used to contr...