Synthetic gene circuits perturb the physiology of their cellular host. The extra load on endogenous processes shifts the equilibrium of resource allocation in the host, leading to slow growth and reduced biosynthesis. Here we built integrated host-circuit models to quantify growth defects caused by synthetic gene circuits. Simulations reveal a complex relation between circuit output and cellular capacity for gene expression. For weak induction of heterologous genes, protein output can be increased at the expense of growth defects. Yet for stronger induction, cellular capacity reaches a tipping point, beyond which both gene expression and growth rate drop sharply. Extensive simulations across various growth conditions and large regions of th...
Synthetic biology aims to the rational design of gene circuits with predictable behaviours. Great ef...
Background: In order to understand and regulate complex genetic networks in living cells, it is impo...
Synthetic biology uses modeling to facilitate the design of new genetic constructions. In particular...
Heterologous gene expression draws resources from host cells. These resources include vital componen...
Despite recent advances in circuit engineering, the design of genetic networks in mammalian cells is...
In this paper we motivate and develop a model of gene expression for the purpose of studying the int...
Unnatural gene expression imposes a load on engineered microorganisms thatdecreases their growth and...
Characterisation and understanding of genetic components is a key part of both synthetic biology and...
Synthetic biology has exploited genetic engineering technology and systems theory to decipher the na...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...
To control cellular processes synthetic biologists and biotechnologists often use regulation of gene...
International audienceIntracellular processes rarely work in isolation but continually interact with...
Synthetic biology seeks to envision living cells as a matter of engineering. However, increasing evi...
A major goal of synthetic biology is to develop a deeper understanding of biological design principl...
Synthetic biology seeks to envision living cells as a matter of engineering. However, increasing evi...
Synthetic biology aims to the rational design of gene circuits with predictable behaviours. Great ef...
Background: In order to understand and regulate complex genetic networks in living cells, it is impo...
Synthetic biology uses modeling to facilitate the design of new genetic constructions. In particular...
Heterologous gene expression draws resources from host cells. These resources include vital componen...
Despite recent advances in circuit engineering, the design of genetic networks in mammalian cells is...
In this paper we motivate and develop a model of gene expression for the purpose of studying the int...
Unnatural gene expression imposes a load on engineered microorganisms thatdecreases their growth and...
Characterisation and understanding of genetic components is a key part of both synthetic biology and...
Synthetic biology has exploited genetic engineering technology and systems theory to decipher the na...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...
To control cellular processes synthetic biologists and biotechnologists often use regulation of gene...
International audienceIntracellular processes rarely work in isolation but continually interact with...
Synthetic biology seeks to envision living cells as a matter of engineering. However, increasing evi...
A major goal of synthetic biology is to develop a deeper understanding of biological design principl...
Synthetic biology seeks to envision living cells as a matter of engineering. However, increasing evi...
Synthetic biology aims to the rational design of gene circuits with predictable behaviours. Great ef...
Background: In order to understand and regulate complex genetic networks in living cells, it is impo...
Synthetic biology uses modeling to facilitate the design of new genetic constructions. In particular...