AbstractGenetic circuits can now be engineered that perform moderately complicated switching functions or exhibit predictable dynamical behavior. These ‘forward engineering’ techniques may have to be combined with directed evolution techniques to produce robustness comparable with naturally occurring circuits
How can cells shape and utilize dynamic gene regulation to enable complex cellular behaviors? I stud...
Living organisms have evolved to survive in a multitude of environmental conditions. This plasticity...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biological Engineering, 2017.Pa...
AbstractGenetic circuits can now be engineered that perform moderately complicated switching functio...
The construction of artificial networks of transcriptional control elements in living cells represen...
Cells navigate environments, communicate and build complex patterns by initiating gene expression in...
A major goal of synthetic biology is to develop a deeper understanding of biological design principl...
Gene regulatory networks lay at the foundation of biological function and are responsible for drivin...
Engineering synthetic gene regulatory circuits proceeds through iterative cycles of design, building...
Synthetic circuits offer great promise for generating insights into nature's underlying design princ...
Synthetic biology has exploited genetic engineering technology and systems theory to decipher the na...
A central aim of synthetic biology is to build organisms that can perform useful activities in respo...
AbstractAnalysis of the system design principles of signaling systems requires model systems where a...
Living cells are exquisite systems. They are strongly regulated to perform in highly specific ways, ...
Background: Gene regulation in biological systems is impacted by the cellular and genetic context-de...
How can cells shape and utilize dynamic gene regulation to enable complex cellular behaviors? I stud...
Living organisms have evolved to survive in a multitude of environmental conditions. This plasticity...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biological Engineering, 2017.Pa...
AbstractGenetic circuits can now be engineered that perform moderately complicated switching functio...
The construction of artificial networks of transcriptional control elements in living cells represen...
Cells navigate environments, communicate and build complex patterns by initiating gene expression in...
A major goal of synthetic biology is to develop a deeper understanding of biological design principl...
Gene regulatory networks lay at the foundation of biological function and are responsible for drivin...
Engineering synthetic gene regulatory circuits proceeds through iterative cycles of design, building...
Synthetic circuits offer great promise for generating insights into nature's underlying design princ...
Synthetic biology has exploited genetic engineering technology and systems theory to decipher the na...
A central aim of synthetic biology is to build organisms that can perform useful activities in respo...
AbstractAnalysis of the system design principles of signaling systems requires model systems where a...
Living cells are exquisite systems. They are strongly regulated to perform in highly specific ways, ...
Background: Gene regulation in biological systems is impacted by the cellular and genetic context-de...
How can cells shape and utilize dynamic gene regulation to enable complex cellular behaviors? I stud...
Living organisms have evolved to survive in a multitude of environmental conditions. This plasticity...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biological Engineering, 2017.Pa...