Add to ORKGFeedback regulation is pervasive in biology at both the organismal and cellular level. In this article, we explore the properties of a particular biomolecular feedback mechanism implemented using the sequestration binding of two molecules. Our work develops an analytic framework for understanding the hard limits, performance tradeoffs, and architectural properties of this simple model of biological feedback control. Using tools from control theory, we show that there are simple parametric relationships that determine both the stability and the performance of these systems in terms of speed, robustness, steady-state error, and leakiness. These findings yield a holistic understanding of the behavior of sequestration feedback and contribute to...
Living systems must adapt quickly and stably to uncertain environments. A common theme in cellular r...
Feedback allows biological systems to control gene expression precisely and reliably, even in the pr...
This is the final version of the article. Available from Public Library of Science via the DOI in th...
Feedback regulation is pervasive in biology at both the organismal and cellular level. In this artic...
Feedback regulation is pervasive in biology at both the organismal and cellular level. In this artic...
Integral control is commonly used in mechanical and electrical systems to ensure perfect adaptation....
As we begin to design increasingly complex synthetic biomolecular systems, it is essential to develo...
Understanding how a biomolecular system achieves various control objectives via chemical reactions i...
We introduce a new design framework for implementing negative feedback regulation in synthetic biolo...
A core pursuit in systems and synthetic biology is the analysis of the connection between the low-le...
Feedback control is the key to achieve robust performances for many engineered systems. However, its...
Buffering, the use of reservoirs of molecules to maintain concentrations of key molecular species, a...
Background: Feedback regulation plays crucial roles in the robust control and maintenance of many ce...
The local stability of unbranched biosynthetic pathways is examined by mathematical analysis and com...
Cells are exposed to a range of external and internal disturbances that may influence the function o...
Living systems must adapt quickly and stably to uncertain environments. A common theme in cellular r...
Feedback allows biological systems to control gene expression precisely and reliably, even in the pr...
This is the final version of the article. Available from Public Library of Science via the DOI in th...
Feedback regulation is pervasive in biology at both the organismal and cellular level. In this artic...
Feedback regulation is pervasive in biology at both the organismal and cellular level. In this artic...
Integral control is commonly used in mechanical and electrical systems to ensure perfect adaptation....
As we begin to design increasingly complex synthetic biomolecular systems, it is essential to develo...
Understanding how a biomolecular system achieves various control objectives via chemical reactions i...
We introduce a new design framework for implementing negative feedback regulation in synthetic biolo...
A core pursuit in systems and synthetic biology is the analysis of the connection between the low-le...
Feedback control is the key to achieve robust performances for many engineered systems. However, its...
Buffering, the use of reservoirs of molecules to maintain concentrations of key molecular species, a...
Background: Feedback regulation plays crucial roles in the robust control and maintenance of many ce...
The local stability of unbranched biosynthetic pathways is examined by mathematical analysis and com...
Cells are exposed to a range of external and internal disturbances that may influence the function o...
Living systems must adapt quickly and stably to uncertain environments. A common theme in cellular r...
Feedback allows biological systems to control gene expression precisely and reliably, even in the pr...
This is the final version of the article. Available from Public Library of Science via the DOI in th...