Significant advances have been made in synthetic biology to program information processing capabilities in cells. While these designs can function predictably in controlled laboratory environments, the reliability of these devices in complex, temporally changing environments has not yet been characterized. As human society faces global challenges in agriculture, human health and energy, synthetic biology should develop predictive design principles for biological systems operating in complex environments. Natural biological systems have evolved mechanisms to overcome innumerable and diverse environmental challenges. Evolutionary design rules should be extracted and adapted to engineer stable and predictable ecological function. We highlight ...
Abstract Biological systems often need to operate in complex environments where conditions can rapi...
Synthetic biology is the application of engineering principles to the fundamental components of biol...
Microorganisms are able to respond effectively to diverse signals from their environment and interna...
A major goal of biological research is to provide a mechanistic understanding of diverse biological ...
A major goal of biological research is to provide a mechanistic understanding of diverse biological ...
Synthetic Biology provides a framework to examine key enabling components in the emerging area of sy...
Synthetic biology has exploited genetic engineering technology and systems theory to decipher the na...
sis or enhancement of complex biological systems to elicit behaviors that do not exist in nature. Sy...
Gene regulatory networks lay at the foundation of biological function and are responsible for drivin...
Synthetic biology has enabled the engineering of biological networks capable of producing quantitati...
Synthetic biology has progressed to the point where genes that encode whole metabolic pathways and e...
AbstractAs the indispensable role of natural microbial communities in many aspects of life on Earth ...
The emerging field of synthetic biology aims to use artificially designed genetic circuits to progra...
The past decade has witnessed the rise of an exciting new field of engineering: synthetic biology. S...
Microbial ecosystems have been widely used in industrial production, but the inter-relationships of ...
Abstract Biological systems often need to operate in complex environments where conditions can rapi...
Synthetic biology is the application of engineering principles to the fundamental components of biol...
Microorganisms are able to respond effectively to diverse signals from their environment and interna...
A major goal of biological research is to provide a mechanistic understanding of diverse biological ...
A major goal of biological research is to provide a mechanistic understanding of diverse biological ...
Synthetic Biology provides a framework to examine key enabling components in the emerging area of sy...
Synthetic biology has exploited genetic engineering technology and systems theory to decipher the na...
sis or enhancement of complex biological systems to elicit behaviors that do not exist in nature. Sy...
Gene regulatory networks lay at the foundation of biological function and are responsible for drivin...
Synthetic biology has enabled the engineering of biological networks capable of producing quantitati...
Synthetic biology has progressed to the point where genes that encode whole metabolic pathways and e...
AbstractAs the indispensable role of natural microbial communities in many aspects of life on Earth ...
The emerging field of synthetic biology aims to use artificially designed genetic circuits to progra...
The past decade has witnessed the rise of an exciting new field of engineering: synthetic biology. S...
Microbial ecosystems have been widely used in industrial production, but the inter-relationships of ...
Abstract Biological systems often need to operate in complex environments where conditions can rapi...
Synthetic biology is the application of engineering principles to the fundamental components of biol...
Microorganisms are able to respond effectively to diverse signals from their environment and interna...