Add to ORKGTo capture the emergent properties of neural circuits, high-speed volumetric imaging of neural activity at cellular resolution is needed. Here, we introduce wavelength multiplexing to perform fast volumetric two-photon imaging of cortical columns (>2,000 neurons in 10 planes at 10 vol/s), using two different calcium indicators, an electrically tunable lens and a spatial light modulator. We image the activity of neuronal populations from layers 2/3 to 5 of primary visual cortex from awake mice, finding a lack of columnar structures in orientation responses and revealing correlations between layers which differ from trial to trial. We also simultaneously image functional correlations between presynaptic layer 1 axons and postsynaptic layer...
Recent years have witnessed major improvements in our understanding of the brain, thanks to technolo...
Imaging neurons and neural circuits over large volumes at high speed and subcellular resolution is a...
Recent years have witnessed major improvements in our understanding of the brain, thanks to technolo...
Summary: To capture the emergent properties of neural circuits, high-speed volumetric imaging of neu...
Two-photon calcium imaging provides an optical readout of neuronal activity in populations of neuron...
Two-photon calcium imaging provides an optical readout of neuronal activity in populations of neuron...
Two-photon excitation fluorescence microscopy is widely used to study the activity of neuronal circu...
Two-photon calcium imaging provides an optical readout of neuronal activity in populations of neuron...
Two-photon calcium imaging provides an optical readout of neuronal activity in populations of neuron...
Spontaneous and sensory-evoked activity propagates across varying spatial scales in the mammalian co...
Recording the activity of large populations of neurons is an important step toward understanding the...
Spontaneous and sensory-evoked activity propagates across varying spatial scales in the mammalian co...
Brain is composed of complex neural networks that work in concert to underlie the animal’s cognition...
Recording the activity of large populations of neurons is an important step toward understanding the...
Imaging neurons and neural circuits over large volumes at high speed and subcellular resolution is a...
Recent years have witnessed major improvements in our understanding of the brain, thanks to technolo...
Imaging neurons and neural circuits over large volumes at high speed and subcellular resolution is a...
Recent years have witnessed major improvements in our understanding of the brain, thanks to technolo...
Summary: To capture the emergent properties of neural circuits, high-speed volumetric imaging of neu...
Two-photon calcium imaging provides an optical readout of neuronal activity in populations of neuron...
Two-photon calcium imaging provides an optical readout of neuronal activity in populations of neuron...
Two-photon excitation fluorescence microscopy is widely used to study the activity of neuronal circu...
Two-photon calcium imaging provides an optical readout of neuronal activity in populations of neuron...
Two-photon calcium imaging provides an optical readout of neuronal activity in populations of neuron...
Spontaneous and sensory-evoked activity propagates across varying spatial scales in the mammalian co...
Recording the activity of large populations of neurons is an important step toward understanding the...
Spontaneous and sensory-evoked activity propagates across varying spatial scales in the mammalian co...
Brain is composed of complex neural networks that work in concert to underlie the animal’s cognition...
Recording the activity of large populations of neurons is an important step toward understanding the...
Imaging neurons and neural circuits over large volumes at high speed and subcellular resolution is a...
Recent years have witnessed major improvements in our understanding of the brain, thanks to technolo...
Imaging neurons and neural circuits over large volumes at high speed and subcellular resolution is a...
Recent years have witnessed major improvements in our understanding of the brain, thanks to technolo...