The design and implementation of synthetic circuits that operate robustly in the cellular context is fundamental for the advancement of synthetic biology. However, their practical implementation presents challenges due to low predictability of synthetic circuit design and time-intensive troubleshooting. Here, we present the Cyberloop, a testing framework to accelerate the design process and implementation of biomolecular controllers. Cellular fluorescence measurements are sent in real-time to a computer simulating candidate sto- chastic controllers, which in turn compute the control inputs and feed them back to the controlled cells via light stimulation. Applying this framework to yeast cells engineered with optogenetic tools, we examine an...
Synthetic biology is a growing field at the interface of the engineering and biological sciences whi...
Abstract Gene networks and signaling pathways display complex topologies and, as a result, complex ...
Living cells are exquisite systems. They are strongly regulated to perform in highly specific ways, ...
The design and implementation of synthetic circuits that operate robustly in the cellular context is...
Synthetic Biology enables the construction of new genetic circuits with the final goal of controllin...
With the expanding interest in cellular responses to dynamic environments, microfluidic devices have...
The past several years have witnessed an increased presence of control theoretic concepts in synthet...
Abstract This tutorial article gives an overview of the theory and design tools for the real-time c...
The process by which the cells respond and adapt to internal and external stimuli, is almost always ...
Abstract The control of microbes and microbial consortia to achieve specific functions requires syn...
We describe an innovative experimental and computational approach to control the expression of a pro...
Microorganisms are able to respond effectively to diverse signals from their environment and interna...
It appears that biological organisms can be harnessed as substrates for computation. Biological cell...
We describe an innovative experimental and computational approach to control the expression of a pro...
Thesis: Ph. D., Massachusetts Institute of Technology, Computational and Systems Biology Program, 20...
Synthetic biology is a growing field at the interface of the engineering and biological sciences whi...
Abstract Gene networks and signaling pathways display complex topologies and, as a result, complex ...
Living cells are exquisite systems. They are strongly regulated to perform in highly specific ways, ...
The design and implementation of synthetic circuits that operate robustly in the cellular context is...
Synthetic Biology enables the construction of new genetic circuits with the final goal of controllin...
With the expanding interest in cellular responses to dynamic environments, microfluidic devices have...
The past several years have witnessed an increased presence of control theoretic concepts in synthet...
Abstract This tutorial article gives an overview of the theory and design tools for the real-time c...
The process by which the cells respond and adapt to internal and external stimuli, is almost always ...
Abstract The control of microbes and microbial consortia to achieve specific functions requires syn...
We describe an innovative experimental and computational approach to control the expression of a pro...
Microorganisms are able to respond effectively to diverse signals from their environment and interna...
It appears that biological organisms can be harnessed as substrates for computation. Biological cell...
We describe an innovative experimental and computational approach to control the expression of a pro...
Thesis: Ph. D., Massachusetts Institute of Technology, Computational and Systems Biology Program, 20...
Synthetic biology is a growing field at the interface of the engineering and biological sciences whi...
Abstract Gene networks and signaling pathways display complex topologies and, as a result, complex ...
Living cells are exquisite systems. They are strongly regulated to perform in highly specific ways, ...