The widespread use of molecular machines in biology has long suggested that great
rewards could come from bridging the gap between synthetic molecular systems and the …

The protein-folding problem was first posed about one half-century ago. The term refers to
three broad questions:(i) What is the physical code by which an amino acid sequence …

The widespread use of controlled molecular‐level motion in key natural processes suggests
that great rewards could come from bridging the gap between the present generation of …

The breadth of structure and function displayed by the molecules of biology is remarkable.
Considering that there are only three major biopolymer backbones (proteins, ribonucleic …

The “protein folding problem” consists of three closely related puzzles:(a) What is the folding
code?(b) What is the folding mechanism?(c) Can we predict the native structure of a protein …

Bioinspired polymeric materials are attracting increasing attention due to significant
advantages over their natural counterparts: the ability to precisely tune their structures over a …

The protein folding problem was first articulated as question of how order arose from
disorder in proteins: How did the various native structures of proteins arise from interatomic …

The origins of our nearly ten‐year research program of chemical and biological
investigations into peptides based on homologated proteinogenic amino acids are …

In addition to critical biological roles, DNA is also considered an excellent engineering
material with unique characteristics of high programmability and addressability. Recent …

In the course of evolution, Nature has developed a multitude of biomacromolecules tailored
to deal with complicated tasks such as information storage, support of tissue, transport, and …