Add to ORKGTemporal dynamics in many biomolecular circuits can change with temperature because of the temperature dependence of underlying reaction rate parameters. It is generally unclear what circuit mechanisms can inherently facilitate robustness in the dynamics to variations in temperature. Here, we address this issue using a combination of mathematical models and experimental measurements in a cell-free transcription-translation system. We find that negative transcriptional feedback can reduce the effect of temperature variation on circuit dynamics. Further, we find that effective negative feedback due to first-order degradation mechanisms can also enable such a temperature robustness effect. Finally, we estimate temperature dependence of ...
A generic feature in all intracellular biochemical processes is the time required to complete the wh...
The intimate relationship between the environment and cellular growth rate has remained a major topi...
AbstractStochastic models of reaction networks are widely used to depict gene expression dynamics. H...
Temporal dynamics in many biomolecular circuits can change with temperature because of the temperat...
Robustness to temperature variation is an important specification in biomolecular circuit design. Wh...
Temperature has a strong influence on most individual biochemical reactions. Despite this, many orga...
'Incoherent feedforward loops' represent important biomolecular circuit elements capable of a rich s...
Temperature affects virtually all biophysical processes inside cells. Relevantly, it shifts over tim...
Performance of biomolecular circuits is affected by changes in temperature, due to its influence on ...
Negative and positive transcriptional feedback loops are present in natural and synthetic genetic os...
AbstractIt has often been taken for granted that negative feedback loops in gene regulation work as ...
AbstractCellular events that execute life programs are ordered and reproducible, despite the noise a...
Background: Feedback regulation plays crucial roles in the robust control and maintenance of many ce...
During transcription, translation, or self-replication of DNA or RNA, information is transferred to ...
Complex regulation of biochemical pathways in a cell is brought about by the interaction of simpler ...
A generic feature in all intracellular biochemical processes is the time required to complete the wh...
The intimate relationship between the environment and cellular growth rate has remained a major topi...
AbstractStochastic models of reaction networks are widely used to depict gene expression dynamics. H...
Temporal dynamics in many biomolecular circuits can change with temperature because of the temperat...
Robustness to temperature variation is an important specification in biomolecular circuit design. Wh...
Temperature has a strong influence on most individual biochemical reactions. Despite this, many orga...
'Incoherent feedforward loops' represent important biomolecular circuit elements capable of a rich s...
Temperature affects virtually all biophysical processes inside cells. Relevantly, it shifts over tim...
Performance of biomolecular circuits is affected by changes in temperature, due to its influence on ...
Negative and positive transcriptional feedback loops are present in natural and synthetic genetic os...
AbstractIt has often been taken for granted that negative feedback loops in gene regulation work as ...
AbstractCellular events that execute life programs are ordered and reproducible, despite the noise a...
Background: Feedback regulation plays crucial roles in the robust control and maintenance of many ce...
During transcription, translation, or self-replication of DNA or RNA, information is transferred to ...
Complex regulation of biochemical pathways in a cell is brought about by the interaction of simpler ...
A generic feature in all intracellular biochemical processes is the time required to complete the wh...
The intimate relationship between the environment and cellular growth rate has remained a major topi...
AbstractStochastic models of reaction networks are widely used to depict gene expression dynamics. H...