User profiles for Noah Olsman
Noah OlsmanPostdoctoral Fellow, Department of Systems Biology, Harvard Medical School Verified email at hms.harvard.edu Cited by 283 |
[PDF][PDF] Hard limits and performance tradeoffs in a class of antithetic integral feedback networks
Feedback 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 called …
article, we explore the properties of a particular biomolecular feedback mechanism called …
Efficient bayesian learning in social networks with gaussian estimators
We consider a group of Bayesian agents who try to estimate a state of the world θ through
interaction on a social network. Each agent v initially receives a private measurement of θ: a …
interaction on a social network. Each agent v initially receives a private measurement of θ: a …
Allosteric proteins as logarithmic sensors
N Olsman, L Goentoro - Proceedings of the National …, 2016 - National Acad Sciences
Many sensory systems, from vision and hearing in animals to signal transduction in cells,
respond to fold changes in signal relative to background. Responding to fold change requires …
respond to fold changes in signal relative to background. Responding to fold change requires …
[PDF][PDF] Architectural principles for characterizing the performance of antithetic integral feedback networks
As we begin to design increasingly complex synthetic biomolecular systems, it is essential to
develop rational design methodologies that yield predictable circuit performance. Here we …
develop rational design methodologies that yield predictable circuit performance. Here we …
Hard limits and performance tradeoffs in a class of sequestration feedback systems
A common feature of both biological and man-made systems is the use of feedback to
control their behavior. In this paper, we explore a particular model of biomolecular feedback …
control their behavior. In this paper, we explore a particular model of biomolecular feedback …
There's (still) plenty of room at the bottom
N Olsman, L Goentoro - Current opinion in biotechnology, 2018 - Elsevier
Motifs, circuits, and networks are core conceptual elements in modern systems and synthetic
biology. While there are still undoubtedly more fascinating computations to discover at …
biology. While there are still undoubtedly more fascinating computations to discover at …
[HTML][HTML] Experimental and computational analysis of a large protein network that controls fat storage reveals the design principles of a signaling network
An approach combining genetic, proteomic, computational, and physiological analysis was
used to define a protein network that regulates fat storage in budding yeast (Saccharomyces …
used to define a protein network that regulates fat storage in budding yeast (Saccharomyces …
Antithetic integral feedback for the robust control of monostable and oscillatory biomolecular circuits
Biomolecular feedback systems are now a central application area of interest within control
theory. While classical control techniques provide valuable insight into the function and …
theory. While classical control techniques provide valuable insight into the function and …
Design guidelines for sequestration feedback networks
AA Baetica, YP Leong, N Olsman, RM Murray - Biorxiv, 2018 - biorxiv.org
Integral control is commonly used in mechanical and electrical systems to ensure perfect
adaptation. A proposed design of integral control for synthetic biological systems employs the …
adaptation. A proposed design of integral control for synthetic biological systems employs the …
[PDF][PDF] Evaluation of Hansen et al.: Nuance is crucial in comparisons of noise
… Olsman et al. chose to reveal their identities during the peer review process within this
peer review. Hansen et al. support the publication of this Peer Review; their permission to …
peer review. Hansen et al. support the publication of this Peer Review; their permission to …