Absolute uniform chain lengths and amino acid sequences as well as well-defined folding patterns that determine structure and properties characterize natural proteins. Advances in chemical and biological peptide synthesis allow improved control over the composition and structure of artificial proteins and peptide hybrid materials, which opens up pathways for the development of new protein-inspired materials, for example, reversible protein hydrogels (see scheme)
In this chapter, an intelligent design of synthetic peptides and their implementation in biomaterial...
Biological fluids, the most complex blends, have compositions that constantly vary and cannot be mol...
Design of proteins has far-reaching potentials in diverse areas that span repurposing of the protein...
\u3cp\u3eThrough billions of years of evolution nature has created and refined structural proteins f...
In the past 20 years protein engineering has been used for the production of proteins mostly for bio...
Genetically engineered proteins will play an important role in materials science. Many natural prote...
Peptides and proteins have attracted scientific and technological interest largely because of their...
Natural systems produce macromolecules that assemble into complex, highly ordered structures. In par...
Polymeric materials produced from fossil fuels have been intimately linked to the development of ind...
Polymers and their self-assembled structures constitute an essential part of life: Advances in synth...
Polymeric materials produced from fossil fuels have been intimately linked to the development of ind...
The hierarchical structure-dependent function of self-assembling proteins regulates the biochemical ...
Biocomplexity—the study of complex structures and behaviours that take place in biological systems—g...
Nature__s own building block, peptide/protein derived materials have been of great interest for supr...
The advent of recombinant DNA technology has provided new approaches to the synthesis of proteins wi...
In this chapter, an intelligent design of synthetic peptides and their implementation in biomaterial...
Biological fluids, the most complex blends, have compositions that constantly vary and cannot be mol...
Design of proteins has far-reaching potentials in diverse areas that span repurposing of the protein...
\u3cp\u3eThrough billions of years of evolution nature has created and refined structural proteins f...
In the past 20 years protein engineering has been used for the production of proteins mostly for bio...
Genetically engineered proteins will play an important role in materials science. Many natural prote...
Peptides and proteins have attracted scientific and technological interest largely because of their...
Natural systems produce macromolecules that assemble into complex, highly ordered structures. In par...
Polymeric materials produced from fossil fuels have been intimately linked to the development of ind...
Polymers and their self-assembled structures constitute an essential part of life: Advances in synth...
Polymeric materials produced from fossil fuels have been intimately linked to the development of ind...
The hierarchical structure-dependent function of self-assembling proteins regulates the biochemical ...
Biocomplexity—the study of complex structures and behaviours that take place in biological systems—g...
Nature__s own building block, peptide/protein derived materials have been of great interest for supr...
The advent of recombinant DNA technology has provided new approaches to the synthesis of proteins wi...
In this chapter, an intelligent design of synthetic peptides and their implementation in biomaterial...
Biological fluids, the most complex blends, have compositions that constantly vary and cannot be mol...
Design of proteins has far-reaching potentials in diverse areas that span repurposing of the protein...
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