A team has made a major breakthrough in the field of three-dimensional (3D) imaging of large-scale biological tissues. They ...

The human brain is comprised of two main types of cells, known as neurons and glia. The first are responsible for ...

Scientists at the Max Planck Institute for Medical Research in Heidelberg have now developed a novel molecular tool that can monitor these kinase activities both spatially and temporally. This makes ...

An engineered protein turns off the kind of immune cells most likely to damage tissue as part of Type-1 diabetes, hepatitis, ...

A new study published in Cell on July 10 has reported the world's fastest high-resolution three-dimensional (3D) imaging technology for the entire ...

A new tool called PHOTON, developed by scientists at UT Southwestern Medical Center, can identify RNA molecules at their native locations within cells—providing valuable clues to where different RNA ...

For roughly 400 years, microscopes have allowed us to observe increasingly smaller details. Today's most advanced instruments can peer deep into living cells, helping researchers study diseases such ...

We also report the imaging of a bovine hemoglobin (BHb) imprinted HydroMIP using two-photon confocal microscopy and describe the effects of template elution upon protein autofluorescence.

US researchers are developing an AI-powered microscope system that could make soil health testing faster, cheaper, and more ...

Three-dimensional (3D) imaging is essential for investigating cellular structure and dynamics. Traditional optical methods ...

The intricate, hidden processes that sustain coral life are being revealed through a new microscope developed by scientists ...

The application space of label-free chemical imaging using coherent Raman scattering (CRS) microscopy in the life sciences and pharma/medical research is expanding rapidly. Ongoing advances ...