Reconfigurable DNA Nanocage for Protein Encapsulation and Regulation
Creating nanomachines capable of precisely capturing, organizing, and regulating the
activity of target biomolecules holds profound significance for advancing nanotechnology …
activity of target biomolecules holds profound significance for advancing nanotechnology …
DNA‐based Precision Tools to Probe and Program Mechanobiology and Organ Engineering
DNA nanotechnology represents an innovative discipline that combines nanotechnology
with biotechnology. It exploits the distinctive characteristics of deoxyribonucleic acid (DNA) …
with biotechnology. It exploits the distinctive characteristics of deoxyribonucleic acid (DNA) …
Sequence-dependent folding of monolayered DNA origami domains
S Gambietz, LJ Stenke, B Saccà - Nanoscale, 2023 - pubs.rsc.org
Current models of DNA origami folding can explain the yield of the assembly process and
the isomerization of the structure upon the application of mechanical forces. Nevertheless …
the isomerization of the structure upon the application of mechanical forces. Nevertheless …
Folding Competition and Dynamic Transformation in DNA Origami: Parallel Versus Antiparallel Crossovers
DNA is a versatile abiomaterial for constructing nanostructures with biomedical and
biotechnological applications. Among the methods available, DNA origami is a robust and …
biotechnological applications. Among the methods available, DNA origami is a robust and …
[引用][C] Self-assembly of Nucleic Acids: From Structures to Biomedical Applications
Self-assemblies of nucleic acids have been produced during the last several decades to
develop multi-dimensional nanostructures in vitro and in vivo. Molecular sensing and …
develop multi-dimensional nanostructures in vitro and in vivo. Molecular sensing and …