[HTML][HTML] Probing neuronal activity with genetically encoded calcium and voltage fluorescent indicators
M Sakamoto, T Yokoyama - Neuroscience Research, 2024 - Elsevier
Monitoring neural activity in individual neurons is crucial for understanding neural circuits
and brain functions. The emergence of optical imaging technologies has dramatically …
and brain functions. The emergence of optical imaging technologies has dramatically …
Widefield in vivo imaging system with two fluorescence and two reflectance channels, a single sCMOS detector, and shielded illumination
PR Doran, N Fomin-Thunemann, RP Tang… - …, 2024 - spiedigitallibrary.org
Significance Widefield microscopy of the entire dorsal part of mouse cerebral cortex enables
large-scale (“mesoscopic”) imaging of different aspects of neuronal activity with spectrally …
large-scale (“mesoscopic”) imaging of different aspects of neuronal activity with spectrally …
A fast and responsive voltage indicator with enhanced sensitivity for unitary synaptic events
A remaining challenge for genetically encoded voltage indicators (GEVIs) is the reliable
detection of excitatory postsynaptic potentials (EPSPs). Here, we developed ASAP5 as a …
detection of excitatory postsynaptic potentials (EPSPs). Here, we developed ASAP5 as a …
High-Speed Wide-Field Optical Imaging of Voltage and Hemodynamics
Conference title, upper and lower case, bolded, 18 point type, centered Page 1 High-Speed
Wide-Field Optical Imaging of Voltage and Hemodynamics Lisa Meyer-Baese1,2, Yuyang …
Wide-Field Optical Imaging of Voltage and Hemodynamics Lisa Meyer-Baese1,2, Yuyang …
[引用][C] Dynamic Connectivity of Mouse Cortex Observed with Wide Field Optical Imaging
Conference title, upper and lower case, bolded, 18 point type, centered Page 1 Dynamic
Connectivity of Mouse Cortex Observed with Wide Field Optical Imaging Yuyang Bian1, Lisa …
Connectivity of Mouse Cortex Observed with Wide Field Optical Imaging Yuyang Bian1, Lisa …