Recent work on engineering synthetic cellular circuitry has shown that non-regulatory interactions brought about through competition for shared gene expression re-sources, such as ribosomes, can result in degraded performance (where circuit behaviour deviates from design specifications) or even failure (qualitatively different functionality). Numerous feedback control strategies have been proposed to decouple co-expressed genes in simple genetic circuits; ranging from feedback within the circuit, resource allocation schemes and growth-based feedback. In this work, we utilise a whole cell mathematical model, which captures key gene expression trade-offs, to compare these control strategies for their ability to ame-liorate the impact of resou...
In genetic circuits, the constituent genes do not interact only between themselves, they are also af...
Synthetic gene circuits perturb the physiology of their cellular host. The extra load on endogenous ...
AbstractLiving systems must adapt quickly and stably to uncertain environments. A common theme in ce...
A recurring challenge in the design of genetic circuits is context dependence, the fact that the beh...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...
The ability to engineer genetic circuits in living cells has tremendous potential in many applicatio...
Heterologous gene expression draws resources from host cells. These resources include vital componen...
The field of synthetic biology aims to engineer organisms has shown great promise for exciting appli...
Genetic circuits need a cellular environment to operate in, which naturally couples the circuit func...
International audienceIntracellular processes rarely work in isolation but continually interact with...
A common approach to design genetic circuits is to compose gene expression cassettes together. While...
Introduction of synthetic circuits into microbes creates competition between circuit and host genes ...
Living systems must adapt quickly and stably to uncertain environments. A common theme in cellular r...
The behavior of genetic circuits is often poorly predictable. A gene’s expression level is not only ...
To control cellular processes synthetic biologists and biotechnologists often use regulation of gene...
In genetic circuits, the constituent genes do not interact only between themselves, they are also af...
Synthetic gene circuits perturb the physiology of their cellular host. The extra load on endogenous ...
AbstractLiving systems must adapt quickly and stably to uncertain environments. A common theme in ce...
A recurring challenge in the design of genetic circuits is context dependence, the fact that the beh...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...
The ability to engineer genetic circuits in living cells has tremendous potential in many applicatio...
Heterologous gene expression draws resources from host cells. These resources include vital componen...
The field of synthetic biology aims to engineer organisms has shown great promise for exciting appli...
Genetic circuits need a cellular environment to operate in, which naturally couples the circuit func...
International audienceIntracellular processes rarely work in isolation but continually interact with...
A common approach to design genetic circuits is to compose gene expression cassettes together. While...
Introduction of synthetic circuits into microbes creates competition between circuit and host genes ...
Living systems must adapt quickly and stably to uncertain environments. A common theme in cellular r...
The behavior of genetic circuits is often poorly predictable. A gene’s expression level is not only ...
To control cellular processes synthetic biologists and biotechnologists often use regulation of gene...
In genetic circuits, the constituent genes do not interact only between themselves, they are also af...
Synthetic gene circuits perturb the physiology of their cellular host. The extra load on endogenous ...
AbstractLiving systems must adapt quickly and stably to uncertain environments. A common theme in ce...