A new, custom built microscope allows neuroscientists a closer look at the detailed workings of a synapse.
Diffuse optical localization imaging (DOLI) is a newly developed fluorescence microscopy technique that allows for high-resolution imaging of microcirculation in a non-invasive manner.
A clusterization approach allows researchers to analyze dendritic spines in new ways.
Berkeley Lab Researchers Use Nanophotonics for Optical Look Inside Living Cells An endoscope that can provide high-resolution optical images of...
A new miniature brain microscope, dubbed Mini2P, allows researchers to study neural network activity at high resolution in animals behaving naturally.
Convolutional neural network model significantly outperforms previous methods and is as accurate as humans in segmenting active and overlapping neurons.
Ion channels use a "ball-and-chain" mechanism to help regulate ion flow. Findings confirm a long-standing hypothesis about ion channels and provide key advances in understanding the basic biological processes at work.
Researchers have been able to map neural activity in live mice with the aid of a tiny microscope mounted on the animals' heads. The findings provide insight into the neurobiology of social behavior.
Combining microscopy with artificial intelligence, researchers were able to visualize the complex architecture of interconnected neurons in live C. elegans.
Unexpected behavior in ferroelectric materials explored by researchers supports a new approach to information storage and processing known as memcomputing.
Microscopy technology allows researchers to discover new connections in brain areas associated with memory and learning in fruit flies.
Cryogenic-electron microscopy allowed researchers to determine the basic building blocks of prion proteins, including the placements of their amino acids.