Brain regions vary in their molecular and cellular composition, but how this heterogeneity shapes neuronal dynamics is unclear. Here, we investigate the dynamical consequences of regional heterogeneity using a biophysical model of whole-brain functional magnetic resonance imaging (MRI) dynamics in humans. We show that models in which transcriptional variations in excitatory and inhibitory receptor (E:I) gene expression constrain regional heterogeneity more accurately reproduce the spatiotemporal structure of empirical functional connectivity estimates than do models constrained by global gene expression profiles or MRI-derived estimates of myeloarchitecture. We further show that regional transcriptional heterogeneity is essential for y...
At the macroscale, the brain operates as a network of interconnected neuronal populations, which dis...
Fulltext embargoed for: 6 months post date of publicationNeuronal dynamics display a complex spatiot...
The properties of functional brain networks strongly depend on how their nodes are chosen. Commonly...
Brain regions vary in their molecular and cellular composition, but how this heterogeneity shapes ne...
Large-scale biophysical circuit models provide mechanistic insights into the micro-scale and macro-s...
Abstract: It has been revealed that intersubject variability (ISV) in intrinsic functional connectiv...
Data de publicació electrònica: 02-04-2021What is the effect of activating a single modulatory neuro...
The brain rapidly processes and adapts to new information by dynamically transitioning between whol...
It has been revealed that intersubject variability (ISV) in intrinsic functional connectivity (FC) i...
International audienceModel-based data analysis of whole-brain dynamics links the observed data to m...
International audienceAt the macroscale, the brain operates as a network of interconnected neuronal ...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
Experimental and modeling work of neural activity has described recurrent and attractor dynamic patt...
The large-scale organization of dynamical neural activity across cortex emerges through long-range i...
The brain rapidly processes and adapts to new information by dynamically transitioning between whole...
At the macroscale, the brain operates as a network of interconnected neuronal populations, which dis...
Fulltext embargoed for: 6 months post date of publicationNeuronal dynamics display a complex spatiot...
The properties of functional brain networks strongly depend on how their nodes are chosen. Commonly...
Brain regions vary in their molecular and cellular composition, but how this heterogeneity shapes ne...
Large-scale biophysical circuit models provide mechanistic insights into the micro-scale and macro-s...
Abstract: It has been revealed that intersubject variability (ISV) in intrinsic functional connectiv...
Data de publicació electrònica: 02-04-2021What is the effect of activating a single modulatory neuro...
The brain rapidly processes and adapts to new information by dynamically transitioning between whol...
It has been revealed that intersubject variability (ISV) in intrinsic functional connectivity (FC) i...
International audienceModel-based data analysis of whole-brain dynamics links the observed data to m...
International audienceAt the macroscale, the brain operates as a network of interconnected neuronal ...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
Experimental and modeling work of neural activity has described recurrent and attractor dynamic patt...
The large-scale organization of dynamical neural activity across cortex emerges through long-range i...
The brain rapidly processes and adapts to new information by dynamically transitioning between whole...
At the macroscale, the brain operates as a network of interconnected neuronal populations, which dis...
Fulltext embargoed for: 6 months post date of publicationNeuronal dynamics display a complex spatiot...
The properties of functional brain networks strongly depend on how their nodes are chosen. Commonly...