The dipole orientation of a fluorescent molecule is an inherent physical nature in the fluorescent excitation/emission process, and orientation measurement has found widespread use in studying ...

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 ...

Researchers have developed an imaging technique to capture information about the structure and function of brain tissue at subcellular level -- a few billionth of a meter, while also capturing ...

Super-resolution microscopy, or nanoscopy, enables the use of fluorescent-based molecular localization tools to study molecular structure at the nanoscale level in the intact cell. Analysis of ...

Researchers have developed a new pH probe and imaging technique to provide researchers more information when studying diseases like cancer and Alzheimer's. In the field of scientific research, details ...

Spatial proteomics aims to reveal the locations of a group of proteins in cells or tissues to provide a spatial framework for the understanding of protein interactions or molecular mechanisms of ...

A new advanced artificial intelligence (AI) system has shown world-leading accuracy and speed in identifying protein patterns within individual cells. The new system, developed at the University of ...

Protein aggregates, damaged organelles, and invading bacteria are identified and removed in healthy cells. An international research team led by Professor Konstanze F. Winklhofer from the Institute of ...