Researchers say the innovation, known as SmartEM, will speed scanning sevenfold and open the field of connectomics to a ...

A newly described technology improves the clarity and speed of using two-photon microscopy to image synapses in the live brain. The brain's ability to learn comes from "plasticity," in which neurons ...

Mapping all the connections among the brain’s 100 billion neurons is one of the great scientific and engineering challenges of our time. Scientists, including those at the University of Chicago, began ...

Striking electron microscope pictures from inside the brains of mice suggest what happens in our own brain every day: Our synapses - the junctions between nerve cells - grow strong and large during ...

Johns Hopkins scientists have developed a method involving artificial intelligence to visualize and track changes in the strength of synapses—the connection points through which nerve cells in the ...

The microscopic image shows a nerve cell and a magnified view of the investigated synapses. Calcium was released at these sites using a UV flash, which triggered the release of the neurotransmitter.

Neuroscientists have unveiled an engineered protein that lets them watch incoming signals wash over neurons in real time, turning what used to be invisible chemical whispers into vivid, trackable ...

A new two-photon fluorescence microscope developed at UC Davis can capture high-speed images of neural activity at cellular resolution thanks to a new adaptive sampling scheme and line illumination.

“Think of an American flag,” says neuroscientist and Harvard professor of molecular and cellular biology Jeff Lichtman ’73, sitting in the office at his lab. In response, he says, you might envision a ...

The brain’s ability to learn comes from “plasticity,” in which neurons constantly edit and remodel the tiny connections called synapses that they make with other neurons to form circuits. To study ...