Add to ORKGThe synthesis of proteins, polyesters, polysaccharides and polynucleotides can be adapted to produce new macromolecular materials. Proteins of designed sequence, and with specific chemical functions, conferred by the incorporation of unnatural amino acids, have been prepared in genetically engineered bacteria. Polyesters, useful as biodegradable thermoplastics, have been made in bacterial hosts, and more recently, in transgenic plants. Polysaccharides, made either chemically or enzymatically, are being explored for biomedical applications, and synthetic polynucleotides could eventually serve as scaffolds in the construction of nanoscale materials
Metabolic engineering of plants allows the possibility of using crops for the synthesis of novel pol...
Metabolic engineering of plants allows the possibility of using crops for the synthesis of novel pol...
Polymers are long chain molecules of repetitive sequence that are widely used as plastics, rubbers, ...
The synthesis of proteins, polyesters, polysaccharides and polynucleotides can be adapted to produce...
In the rapidly changing scientific world, contributions of scientists and engineers are leading to m...
Biopolymers can be produced through a variety of mechanisms. They can be derived from microbial syst...
Genetically engineered proteins will play an important role in materials science. Many natural prote...
Natural systems produce macromolecules that assemble into complex, highly ordered structures. In par...
In the past 20 years protein engineering has been used for the production of proteins mostly for bio...
Nature has evolved sequence-controlled polymers, such as DNA and proteins, over its long history. Th...
Polymeric materials produced from fossil fuels have been intimately linked to the development of ind...
This paper describes the use of artificial genes to direct bacterial synthesis of new polypeptides o...
This paper describes the use of artificial genes to direct bacterial synthesis of new polypeptides o...
Polymeric materials produced from fossil fuels have been intimately linked to the development of ind...
This paper describes the use of artificial genes to direct bacterial synthesis of new polypeptides o...
Metabolic engineering of plants allows the possibility of using crops for the synthesis of novel pol...
Metabolic engineering of plants allows the possibility of using crops for the synthesis of novel pol...
Polymers are long chain molecules of repetitive sequence that are widely used as plastics, rubbers, ...
The synthesis of proteins, polyesters, polysaccharides and polynucleotides can be adapted to produce...
In the rapidly changing scientific world, contributions of scientists and engineers are leading to m...
Biopolymers can be produced through a variety of mechanisms. They can be derived from microbial syst...
Genetically engineered proteins will play an important role in materials science. Many natural prote...
Natural systems produce macromolecules that assemble into complex, highly ordered structures. In par...
In the past 20 years protein engineering has been used for the production of proteins mostly for bio...
Nature has evolved sequence-controlled polymers, such as DNA and proteins, over its long history. Th...
Polymeric materials produced from fossil fuels have been intimately linked to the development of ind...
This paper describes the use of artificial genes to direct bacterial synthesis of new polypeptides o...
This paper describes the use of artificial genes to direct bacterial synthesis of new polypeptides o...
Polymeric materials produced from fossil fuels have been intimately linked to the development of ind...
This paper describes the use of artificial genes to direct bacterial synthesis of new polypeptides o...
Metabolic engineering of plants allows the possibility of using crops for the synthesis of novel pol...
Metabolic engineering of plants allows the possibility of using crops for the synthesis of novel pol...
Polymers are long chain molecules of repetitive sequence that are widely used as plastics, rubbers, ...