Add to ORKGComputational analysis of cellular activity has developed largely independently of modern transcriptomic cell typology, but integrating these approaches may be essential for full insight into cellular-level mechanisms underlying brain function and dysfunction. Applying this approach to the habenula (a structure with diverse, intermingled molecular, anatomical, and computational features), we identified encoding of reward-predictive cues and reward outcomes in distinct genetically defined neural populations, including TH+ cells and Tac1+ cells. Data from genetically targeted recordings were used to train an optimized nonlinear dynamical systems model and revealed activity dynamics consistent with a line attractor. High-density, cell-type-spe...
The brain is a complex organ that contains hundreds of diverse cellular subtypes which organize into...
The significant increase in the availability of postgenomic data has stimulated the growth of hypoth...
Neuronal ensembles are local, sparsely distributed populations of neurons that are reliably re-activ...
The habenula plays a key role in various motivated and pathological behaviors and is composed of mol...
We employ the language of Bayesian networks to systematically construct gene-regulation topologies f...
What is the significance of the extensive variability observed in individual members of a single-cel...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
The habenula is an evolutionarily conserved structure of the vertebrate brain that is essential for ...
During the development of the brain, different types of neuronal and non-neuronal cell types are for...
A fundamental goal in neuroscience research is to comprehensively characterize cell populations with...
The direct reprogramming of adult skin fibroblasts to neurons is thought to be controlled by a small...
Systems neuroscience is still mainly a neuronal field, despite the plethora of evidence supporting t...
Cell-to-cell variability in molecular, genetic, and physiological features is increasingly recognize...
The transformation of synaptic input into action potential output is a fundamental single-cell compu...
Understanding the principles of information processing in neural circuits requires systematic charac...
The brain is a complex organ that contains hundreds of diverse cellular subtypes which organize into...
The significant increase in the availability of postgenomic data has stimulated the growth of hypoth...
Neuronal ensembles are local, sparsely distributed populations of neurons that are reliably re-activ...
The habenula plays a key role in various motivated and pathological behaviors and is composed of mol...
We employ the language of Bayesian networks to systematically construct gene-regulation topologies f...
What is the significance of the extensive variability observed in individual members of a single-cel...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
The habenula is an evolutionarily conserved structure of the vertebrate brain that is essential for ...
During the development of the brain, different types of neuronal and non-neuronal cell types are for...
A fundamental goal in neuroscience research is to comprehensively characterize cell populations with...
The direct reprogramming of adult skin fibroblasts to neurons is thought to be controlled by a small...
Systems neuroscience is still mainly a neuronal field, despite the plethora of evidence supporting t...
Cell-to-cell variability in molecular, genetic, and physiological features is increasingly recognize...
The transformation of synaptic input into action potential output is a fundamental single-cell compu...
Understanding the principles of information processing in neural circuits requires systematic charac...
The brain is a complex organ that contains hundreds of diverse cellular subtypes which organize into...
The significant increase in the availability of postgenomic data has stimulated the growth of hypoth...
Neuronal ensembles are local, sparsely distributed populations of neurons that are reliably re-activ...