Plasticity is the key feature of our brain function. Specifically, plasticity of hippocampal
synapses is critical for learning and memory. The functional properties of the neuronal circuit …

Activity-dependent changes in the input-output (IO) relationship of a neural circuit are central
in the learning and memory function of the brain. To understand circuit-wide adjustments …

Voltage-sensitive dye imaging (VSDI) is a powerful technique for interrogating membrane
potential dynamics in assemblies of cortical neurons, but with effective resolution limits that …

Voltage imaging with cellular resolution in mammalian brain slices is still a challenging task.
Here, we describe and validate a method for delivery of the voltage-sensitive dye ANNINE …

In a typical electrophysiology experiment, synaptic stimulus is delivered in a cortical layer (1–
6) and neuronal responses are recorded intracellularly in individual neurons. We recreated …

In the last decades, imaging membrane potential has become a fruitful approach to study
neural circuits, especially in invertebrate preparations with large, resilient neurons. At the …

A longstanding goal in neuroscience is to understand how spatiotemporal patterns of
neuronal electrical activity underlie brain function, from sensory representations to decision …

Highlights•Genetically encoded voltage indicators (GEVIs) come of age.•GEVIs overcome
limitations of current voltage sensitive dyes.•Two main classes of GEVIs have been …

Membrane potential is an indispensable biophysical signal in neurobiology. Imaging
neuronal electrical signals with fluorescent indicators allows for non-invasive recording at …

Understanding the spatiotemporal organization of long‐term synaptic plasticity in neuronal
networks demands techniques capable of monitoring changes in synaptic responsiveness …