Through billions of years of evolution nature has created and refined structural proteins for a wide variety of specific purposes. Amino acid sequences and their associated folding patterns combine to create elastic, rigid or tough materials. In many respects, nature’s intricately designed products provide challenging examples for materials scientists, but translation of natural structural concepts into bio-inspired materials requires a level of control of macromolecular architecture far higher than that afforded by conventional polymerization processes. An increasingly important approach to this problem has been to use biological systems for production of materials. Through protein engineering, artificial genes can be developed that encode...
AbstractA wide range of biological laboratories have adopted protein engineering techniques, alterin...
Absolute uniform chain lengths and amino acid sequences as well as well-defined folding patterns tha...
While the field of synthetic biology has been historically dominated by developments on the genetic ...
Through billions of years of evolution nature has created and refined structural proteins for a wide...
Peptides and proteins have attracted scientific and technological interest largely because of their...
Genetic engineering offers a novel approach to the development of advanced polymeric materials, in ...
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 ...
Polymeric materials produced from fossil fuels have been intimately linked to the development of ind...
In the past 20 years protein engineering has been used for the production of proteins mostly for bio...
[Excerpt] Throughout evolution nature created and refined proteins for a wide range of functions, wo...
Synthetic polymers and proteins share the essential characteristic of long-chain mol. architecture. ...
This lecture will discuss the design and construction of artificial proteins that form well-defined ...
Biocomplexity—the study of complex structures and behaviours that take place in biological systems—g...
AbstractA wide range of biological laboratories have adopted protein engineering techniques, alterin...
Absolute uniform chain lengths and amino acid sequences as well as well-defined folding patterns tha...
While the field of synthetic biology has been historically dominated by developments on the genetic ...
Through billions of years of evolution nature has created and refined structural proteins for a wide...
Peptides and proteins have attracted scientific and technological interest largely because of their...
Genetic engineering offers a novel approach to the development of advanced polymeric materials, in ...
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 ...
Polymeric materials produced from fossil fuels have been intimately linked to the development of ind...
In the past 20 years protein engineering has been used for the production of proteins mostly for bio...
[Excerpt] Throughout evolution nature created and refined proteins for a wide range of functions, wo...
Synthetic polymers and proteins share the essential characteristic of long-chain mol. architecture. ...
This lecture will discuss the design and construction of artificial proteins that form well-defined ...
Biocomplexity—the study of complex structures and behaviours that take place in biological systems—g...
AbstractA wide range of biological laboratories have adopted protein engineering techniques, alterin...
Absolute uniform chain lengths and amino acid sequences as well as well-defined folding patterns tha...
While the field of synthetic biology has been historically dominated by developments on the genetic ...
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