Observing anything and everything within the human brain, no matter how large or small while it is fully intact, has been an out-of-reach dream of neuroscience for decades, but in a new study in ...

New research details the subcellular structures in neurons that enable signals to be transmitted from where they are received at specific sites on dendrites to the decision-making cell body located ...

Scientists at Feinberg are reshaping scientific understanding of the cell's tiniest components—structures once thought to be static, now revealed to be dynamic engines of cellular life. As they probe ...

A new publication from Opto-Electronic Advances; DOI 10.29026/oea.2024.240035 discusses multiplexed stimulated emission depletion nanoscopy for multi-color live-cell long-term imaging. In the field of ...

Our biceps and our brain cells may have more in common than previously thought. New research led by the Lippincott-Schwartz Lab shows that a network of subcellular structures similar to those ...

Lev T. Perelman, Harvard University, will give a talk on “Multispectral Light Scattering Imaging for Precancer Detection and Cell Analysis” Abstract: Optical spectroscopy is a powerful tool for ...

Views at various scales of two kinds of neurons (calretinin-expressing in cyan and somatostatin-expressing in magenta) in the prefrontal cortex of a human brain. Observing anything and everything ...

New research shows that a network of subcellular structures similar to those responsible for propagating molecular signals that make muscles contract are also responsible for transmitting signals in ...

Proteins are the infinitely varied chemicals that make cells work, and science has a pretty good idea how they are made. But a critical aspect underlying the machinery of protein manufacture has long ...