Kripa Patel
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View article: Learning enhances behaviorally relevant representations in apical dendrites
Learning enhances behaviorally relevant representations in apical dendrites Open
Learning alters cortical representations and improves perception. Apical tuft dendrites in cortical layer 1, which are unique in their connectivity and biophysical properties, may be a key site of learning-induced plasticity. We used both …
View article: Author response: Learning enhances behaviorally relevant representations in apical dendrites
Author response: Learning enhances behaviorally relevant representations in apical dendrites Open
View article: Learning enhances behaviorally relevant representations in apical dendrites
Learning enhances behaviorally relevant representations in apical dendrites Open
Summary Learning alters cortical representations and improves perception. Apical tuft dendrites in Layer 1, which are unique in their connectivity and biophysical properties, may be a key site of learning-induced plasticity. We used both t…
View article: Author response: Learning enhances behaviorally relevant representations in apical dendrites
Author response: Learning enhances behaviorally relevant representations in apical dendrites Open
View article: Learning enhances behaviorally relevant representations in apical dendrites
Learning enhances behaviorally relevant representations in apical dendrites Open
Summary Learning alters cortical representations and improves perception. Apical tuft dendrites in Layer 1, which are unique in their connectivity and biophysical properties, may be a key site of learning-induced plasticity. We used both t…
View article: Reviewer #1 (Public Review): Learning enhances behaviorally relevant representations in apical dendrites
Reviewer #1 (Public Review): Learning enhances behaviorally relevant representations in apical dendrites Open
Learning alters cortical representations and improves perception. Apical tuft dendrites in Layer 1, which are unique in their connectivity and biophysical properties, may be a key site of learning-induced plasticity. We used both two-photo…
View article: Reviewer #2 (Public Review): Learning enhances behaviorally relevant representations in apical dendrites
Reviewer #2 (Public Review): Learning enhances behaviorally relevant representations in apical dendrites Open
Learning alters cortical representations and improves perception. Apical tuft dendrites in Layer 1, which are unique in their connectivity and biophysical properties, may be a key site of learning-induced plasticity. We used both two-photo…
View article: Learning enhances behaviorally relevant representations in apical dendrites
Learning enhances behaviorally relevant representations in apical dendrites Open
Learning alters cortical representations and improves perception. Apical tuft dendrites in cortical layer 1, which are unique in their connectivity and biophysical properties, may be a key site of learning-induced plasticity. We used both …
View article: The spatial and temporal structure of neural activity across the fly brain
The spatial and temporal structure of neural activity across the fly brain Open
View article: Neuronal birthdate reveals topography in a vestibular brainstem circuit for gaze stabilization
Neuronal birthdate reveals topography in a vestibular brainstem circuit for gaze stabilization Open
View article: Flygenvectors: The spatial and temporal structure of neural activity across the fly brain
Flygenvectors: The spatial and temporal structure of neural activity across the fly brain Open
SCAPE panneuronal imaging of adult drosophila behaving on a spherical treadmill, with corresponding tracked body points.
View article: Neuronal birthdate reveals topography in a vestibular brainstem circuit for gaze stabilization
Neuronal birthdate reveals topography in a vestibular brainstem circuit for gaze stabilization Open
Across the nervous system, neurons with similar attributes are topographically organized. This topography reflects developmental pressures. Oddly, vestibular (balance) nuclei are thought to be disorganized. By measuring activity in birthda…
View article: High-speed light-sheet microscopy for the in-situ acquisition of volumetric histological images of living tissue
High-speed light-sheet microscopy for the in-situ acquisition of volumetric histological images of living tissue Open
View article: Learning enhances behaviorally relevant representations in apical dendrites
Learning enhances behaviorally relevant representations in apical dendrites Open
SUMMARY Learning alters cortical representations and improves perception. Apical tuft dendrites in Layer 1, which are unique in their connectivity and biophysical properties, may be a key site of learning-induced plasticity. We used both t…
View article: Flygenvectors: The spatial and temporal structure of neural activity across the fly brain
Flygenvectors: The spatial and temporal structure of neural activity across the fly brain Open
What are the spatial and temporal scales of brainwide neuronal activity, and how do activities at different scales interact? We used SCAPE microscopy to image a large fraction of the central brain of adult Drosophila melanogaster with high…
View article: Data for: High-Speed 3D Imaging of Multiphase Systems: Applying SCAPE Microscopy to Analogue Experiments in Volcanology and Earth Sciences
Data for: High-Speed 3D Imaging of Multiphase Systems: Applying SCAPE Microscopy to Analogue Experiments in Volcanology and Earth Sciences Open
Microscale processes in three-phase suspensions (mixtures of gas, liquids, and solids) can affect the macroscale behavior of the whole suspension. To visualize these small-scale processes at high speed and in 3D, we use a recently develope…
View article: Data for: High-Speed 3D Imaging of Multiphase Systems: Applying SCAPE Microscopy to Analogue Experiments in Volcanology and Earth Sciences
Data for: High-Speed 3D Imaging of Multiphase Systems: Applying SCAPE Microscopy to Analogue Experiments in Volcanology and Earth Sciences Open
Microscale processes in three-phase suspensions (mixtures of gas, liquids, and solids) can affect the macroscale behavior of the whole suspension. To visualize these small-scale processes at high speed and in 3D, we use a recently develope…
View article: Glioma-Induced Alterations in Neuronal Activity and Neurovascular Coupling during Disease Progression
Glioma-Induced Alterations in Neuronal Activity and Neurovascular Coupling during Disease Progression Open
Diffusely infiltrating gliomas are known to cause alterations in cortical function, vascular disruption, and seizures. These neurological complications present major clinical challenges, yet their underlying mechanisms and causal relations…
View article: Real-time volumetric microscopy of in vivo dynamics and large-scale samples with SCAPE 2.0
Real-time volumetric microscopy of in vivo dynamics and large-scale samples with SCAPE 2.0 Open
View article: Glioma-induced alterations in neuronal activity and neurovascular coupling during disease progression
Glioma-induced alterations in neuronal activity and neurovascular coupling during disease progression Open
Diffusely infiltrating gliomas are known to cause alterations in cortical function, vascular disruption and seizures. These neurological complications present major clinical challenges, yet their underlying mechanisms and causal relationsh…
View article: High-speed 3D imaging of cellular activity in the brain using axially-extended beams and light sheets
High-speed 3D imaging of cellular activity in the brain using axially-extended beams and light sheets Open
View article: Noncontact three-dimensional mapping of intracellular hydromechanical properties by Brillouin microscopy
Noncontact three-dimensional mapping of intracellular hydromechanical properties by Brillouin microscopy Open
View article: Noncontact three-dimensional mapping of intracellular hydromechanical properties by Brillouin microscopy
Noncontact three-dimensional mapping of intracellular hydromechanical properties by Brillouin microscopy Open
Current measurements of the biomechanical properties of cells require physical contact with cells or lack subcellular resolution. Here we developed a label-free microscopy technique based on Brillouin light scattering that is capable of me…