Microscopic images released by scientists show how the coronavirus which causes COVID-19 appears to make cells which it has invaded grow tentacle-like protrusions. Researchers used special ...

Researchers at EPFL have now developed a new microscopy technique that combines two existing ones, allowing scientists to build high-definition 3D images of cells inside and out.

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

Image of a maggot (left); the steroid producing cells with the maggot brain (middle); and an expanded image of the steroid producing cells (right). Note large nuclei (dense white area) of steroid ...

Super-resolution 3-D microscopy images cells in unprecedented detail April 7, 2017 August 16, 2016 by Brian Wang A new ultra-high resolution “nanoscope” is capable of taking 3-D images of an entire ...

When obtaining three-dimensional images of cells using a scanning electron microscope, individual cells are scanned one section at a time and those images are then put together to form one ...

DNA microscope image of the same cells, showing genetic material. Broad Institute of MIT and Harvard. Almost unheard of in this era of collaborations that are often larger than a soccer team, ...

Electron microscope images reveal how cells absorb a vital mineral. ScienceDaily. Retrieved March 4, 2025 from www.sciencedaily.com / releases / 2017 / 12 / 171220131718.htm.

A laser technique similar to a CAT scan produces 3-D images of living cells without the need for chemical staining. Skip to content. Subscribe or renew today ...

Even localization microscopy is evolving, with high-density processing algorithms that also reduce the number of frames needed to form a super-resolution image. Cell health is the most important ...

In a groundbreaking study on the synthesis of cellulose – a major constituent of all plant cell walls – a team of Rutgers University-New Brunswick researchers has captured images of the ...

Red cell nucleus, green cytoskeleton: in microscopic images like this one, the AI developed at PSI recognizes the finest changes in chromatin – and thus genetic disorders. Credit: Paul Scherrer ...