Construction of supramolecular DNA nano-machineYongju Kim, Huichang Li, Ying He, Xi Chen, Xiateng Ma, Myongsoo LeeNature Nanotechnology, Embargo lift time (Beijing time); March 27 (23:00), 2017 We have successfully developed supramolecular nanomachine using DNA and its coat assembly. The supramolecular nanomachine repeatedly undergoes coorperative mechanical motion with simultaneous helicity s...
Helical PolymerIn this study, we present the scanning tunneling microscope (STM) images of rationally designed helical polymers with a pattern of pi-pi stacking and successfully identified the single ...
Dynamic Covalent Helical Architecturesthe construction on the helical architectures based on dynamic covalent bonds remains a great challenge, It has so far been realized in inorganic metal-coordinat...
Allosteric SelenoenzymeA Ca2+-responsive artificial selenoenzyme was constructed by computational design and engineering of recoverin with the active center of glutathione peroxidase (GPx). By combini...
Self-Healing MaterialsEnzyme-mediated self-healing of dynamic covalent bond-driven protein hydrogels was realized by the synergy of two enzymes, glucose oxidase (GOX) and catalase (CAT). The reversibl...
Self-Assembled Peptide NanofibersThe structural arrangement of amino acid residues in a native enzyme provides a blueprint for the design of artificial enzymes. One challenge of mimicking the catalyti...
Protein AssemblyStable protein one (SP1) has been demonstrated as an appealing building block to design highly ordered architectures, despite the hybrid assembly with other nano-objects still being a ...