Nucleic acid nanostructures are useful as templates for bionanofabrication of composite
molecular nanostructures in materials science, molecular electronics, and biosensing. Here …

Researchers have worked for many decades to master the rules of biomolecular design that
would allow artificial biopolymer complexes to self-assemble and function similarly to the …

Conspectus DNA performs a vital function as a carrier of genetic code, but in the field of
nanotechnology, DNA molecules can catalyze chemical reactions in the cell, that is …

The powerful self-assembly features of DNA make it a unique template to finely organize
and control matter on the nanometre scale. While DNA alone offers a high degree of fidelity …

In addition to its genetic function, DNA is one of the most distinct and smart self-assembling
nanomaterials. DNA nanotechnology exploits the predictable self-assembly of DNA …

Over the past three decades DNA has emerged as an exceptional molecular building block
for nanoconstruction due to its predictable conformation and programmable intra-and …

Mimicking complex cellular dynamic chemical networks being up-regulated or down-
regulated by external triggers is one of the challenges in systems chemistry. Constitutional …

Living systems have evolved a variety of nanostructures to control the molecular interactions
that mediate many functions including the recognition of targets by receptors, the binding of …

Oligonucleotides have recently gained increased attraction as a supramolecular scaffold for
the design and synthesis of functional molecules on the nanometre scale. This tutorial …

DNA is a promising construction material for the supramolecular 'bottom-up'engineering of
artificial nanostructured devices. The use of DNA for the selective positioning of …