Biophysical properties of neurons become increasingly diverse over development, but mechanisms underlying and constraining this diversity are not fully understood. Here we investigate electrophysiological characteristics of Xenopus tadpole midbrain neurons across development and during homeostatic plasticity induced by patterned visual stimulation. We show that in development tectal neuron properties not only change on average, but also become increasingly diverse. After sensory stimulation, both electrophysiological diversity and functional differentiation of cells are reduced. At the same time, the amount of cross-correlations between cell properties increase after patterned stimulation as a result of homeostatic plasticity. We show that ...
Neurons adapt their electrophysiological properties to maintain stable levels of electrical excitabi...
SummaryDuring embryogenesis, brain neurons receiving the same sensory input may undergo potentiation...
Neurons adapt their electrophysiological properties to maintain stable levels of electrical excitabi...
Biophysical properties of neurons become increasingly diverse over development, but mechanisms under...
Patterned neuronal activity driven by the sensory environment plays a key role in the development of...
SummaryThe ability to generate action potentials (spikes) in response to synaptic input determines w...
Electrophysiology is the study of the electrical properties of cells and tissues. In neuroscience re...
Senior Project submitted to The Division of Science, Mathematics and Computing of Bard College Neuro...
Sensory experience drives dramatic structural and functional plasticity in developing neurons. Howev...
<div><p>Sensory experience drives dramatic structural and functional plasticity in developing neuron...
The brain contains a diverse array of neurons that vary in complexity. Investigating the properties ...
The retinotectal projection in Xenopus laevis has been shown to exhibit correlation-based refinement...
AbstractNeurons adapt their electrophysiological properties to maintain stable levels of electrical ...
During embryonic activity‐dependent brain circuit refinement, neurons receiving the same natural sen...
We describe a novel preparation of the isolated brainstem and spinal cord from pro-metamorphic tadpo...
Neurons adapt their electrophysiological properties to maintain stable levels of electrical excitabi...
SummaryDuring embryogenesis, brain neurons receiving the same sensory input may undergo potentiation...
Neurons adapt their electrophysiological properties to maintain stable levels of electrical excitabi...
Biophysical properties of neurons become increasingly diverse over development, but mechanisms under...
Patterned neuronal activity driven by the sensory environment plays a key role in the development of...
SummaryThe ability to generate action potentials (spikes) in response to synaptic input determines w...
Electrophysiology is the study of the electrical properties of cells and tissues. In neuroscience re...
Senior Project submitted to The Division of Science, Mathematics and Computing of Bard College Neuro...
Sensory experience drives dramatic structural and functional plasticity in developing neurons. Howev...
<div><p>Sensory experience drives dramatic structural and functional plasticity in developing neuron...
The brain contains a diverse array of neurons that vary in complexity. Investigating the properties ...
The retinotectal projection in Xenopus laevis has been shown to exhibit correlation-based refinement...
AbstractNeurons adapt their electrophysiological properties to maintain stable levels of electrical ...
During embryonic activity‐dependent brain circuit refinement, neurons receiving the same natural sen...
We describe a novel preparation of the isolated brainstem and spinal cord from pro-metamorphic tadpo...
Neurons adapt their electrophysiological properties to maintain stable levels of electrical excitabi...
SummaryDuring embryogenesis, brain neurons receiving the same sensory input may undergo potentiation...
Neurons adapt their electrophysiological properties to maintain stable levels of electrical excitabi...