Source code and data for Keijser & Sprekeler, Optimizing interneuron circuits for compartment-specific feedback inhibition, PLOS Computational Biology (2022)
A four-node network consisting of a negative circuit controlling a positive one is studied. It model...
The processes that keep a cell alive are constantly challenged by unpredictable changes in its envir...
Thesis: Ph. D. in Medical Engineering and Medical Physics, Harvard-MIT Program in Health Sciences an...
Cortical circuits process information by rich recurrent interactions between excitatory neurons and ...
This repository contains the code for the models used in "Biological complexity facilitates tuning o...
Background: In order to understand and regulate complex genetic networks in living cells, it is impo...
The ability to self-regulate in feedback is what allows cells to operate robustly despite the uncert...
Summary: Synthetic biology has the potential to revolutionize the biotech industry and our everyday ...
A recurring challenge in the design of genetic circuits is context dependence, the fact that the beh...
Supplementary material and source code accompanying the manuscript "CyberUnits Bricks: An open class...
<div><p>There is still much unknown regarding the computational role of inhibitory cells in the sens...
Integral feedback control is commonly used in mechanical and electrical systems to achieve zero stea...
Tuning of synaptic responses: an organizing principle for optimization of neural circuits Citation f...
In hippocampus, interneuron specific 3 (IS3) cells have been shown to make inhibitory synapses onto ...
Summary: Synthetic biology often relies on the design of genetic circuits, utilizing “bioparts” (mod...
A four-node network consisting of a negative circuit controlling a positive one is studied. It model...
The processes that keep a cell alive are constantly challenged by unpredictable changes in its envir...
Thesis: Ph. D. in Medical Engineering and Medical Physics, Harvard-MIT Program in Health Sciences an...
Cortical circuits process information by rich recurrent interactions between excitatory neurons and ...
This repository contains the code for the models used in "Biological complexity facilitates tuning o...
Background: In order to understand and regulate complex genetic networks in living cells, it is impo...
The ability to self-regulate in feedback is what allows cells to operate robustly despite the uncert...
Summary: Synthetic biology has the potential to revolutionize the biotech industry and our everyday ...
A recurring challenge in the design of genetic circuits is context dependence, the fact that the beh...
Supplementary material and source code accompanying the manuscript "CyberUnits Bricks: An open class...
<div><p>There is still much unknown regarding the computational role of inhibitory cells in the sens...
Integral feedback control is commonly used in mechanical and electrical systems to achieve zero stea...
Tuning of synaptic responses: an organizing principle for optimization of neural circuits Citation f...
In hippocampus, interneuron specific 3 (IS3) cells have been shown to make inhibitory synapses onto ...
Summary: Synthetic biology often relies on the design of genetic circuits, utilizing “bioparts” (mod...
A four-node network consisting of a negative circuit controlling a positive one is studied. It model...
The processes that keep a cell alive are constantly challenged by unpredictable changes in its envir...
Thesis: Ph. D. in Medical Engineering and Medical Physics, Harvard-MIT Program in Health Sciences an...
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