Engineering genetic regulatory circuits is key to the creation of biological applications that are responsive to environmental changes. Computational models can assist in understanding especially large and complex circuits for which manual analysis is infeasible, permitting a model-driven design process. However, there are still few tools that offer the ability to simulate the system under design. One of the reasons for this is the lack of accessible model repositories or libraries that cater to the modular composition of models of synthetic systems. Here, we present the second version of the Virtual Parts Repository, a framework to facilitate the model-driven design of genetic regulatory circuits, which provides reusable, modular, and comp...
Synthetic Biology is characterized by a forward engineering approach to the design of biological sys...
Characterisation and understanding of genetic components is a key part of both synthetic biology and...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biological Engineering, 2017.Pa...
Engineering genetic regulatory circuits is key to the creation of biological applications that are r...
AbstractEngineering genetic regulatory circuits is key to the creation of biological applications th...
Modelling and computational simulation are crucial for the large-scale engineering of biological cir...
Modelling and computational simulation are crucial for the large-scale engineering of biological cir...
Modelling and computational simulation are crucial for the large-scale engineering of biological cir...
Computational models are essential to engineer predictable biological systems and to scale up this p...
Motivation: Fabrication of synthetic biological systems is greatly enhanced by incorporating enginee...
Background The modular design of synthetic gene circuits via composable parts (DNA segments) and po...
Synthetic biology is a rapidly evolving interdisciplinary field that combines principles from biolog...
Motivation: In principle, novel genetic circuits can be engineered using standard parts with well-un...
Motivation: Fabrication of synthetic biological systems is greatly enhanced by incorporating enginee...
thesisSynthetic biology is an engineering discipline in which biological components are assembled to...
Synthetic Biology is characterized by a forward engineering approach to the design of biological sys...
Characterisation and understanding of genetic components is a key part of both synthetic biology and...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biological Engineering, 2017.Pa...
Engineering genetic regulatory circuits is key to the creation of biological applications that are r...
AbstractEngineering genetic regulatory circuits is key to the creation of biological applications th...
Modelling and computational simulation are crucial for the large-scale engineering of biological cir...
Modelling and computational simulation are crucial for the large-scale engineering of biological cir...
Modelling and computational simulation are crucial for the large-scale engineering of biological cir...
Computational models are essential to engineer predictable biological systems and to scale up this p...
Motivation: Fabrication of synthetic biological systems is greatly enhanced by incorporating enginee...
Background The modular design of synthetic gene circuits via composable parts (DNA segments) and po...
Synthetic biology is a rapidly evolving interdisciplinary field that combines principles from biolog...
Motivation: In principle, novel genetic circuits can be engineered using standard parts with well-un...
Motivation: Fabrication of synthetic biological systems is greatly enhanced by incorporating enginee...
thesisSynthetic biology is an engineering discipline in which biological components are assembled to...
Synthetic Biology is characterized by a forward engineering approach to the design of biological sys...
Characterisation and understanding of genetic components is a key part of both synthetic biology and...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biological Engineering, 2017.Pa...