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A set of new imaging tools now allows researchers to see how specific fat molecules, called phospholipids, are distributed ...

Once considered impractical, electron microscopy–based connectomics has transformed neuroscience, earning Nature Methods’ ...

Deep below the surface in coastal sediments, microorganisms use conductive particles as tiny natural "wires" to exchange ...

Biological membranes of cells and their subunits (organelles) are organized into tiny regions (nanodomains) made up of fats ...

International research team presents new imaging technique to make lipids in cellular membranes visible and show how they are organized at the nanoscale. To the point: 3D visualization of lipids with ...

Built from thickets of glucose, galactose, mannose and more, the glycome plays key roles in cell communication, immunity and ...

Researchers at the Michael Sars Centre at the University of Bergen have produced the first complete 3D reconstruction of the ...

In a below-ground lab off Fitch Street, Maggie Blanchard is working with fellow SCSU students to study how fuel cells degrade -- and to help keep Connecticut on the cutting edge of "quantum." On ...

Researchers planned to test how carbon fiber reacted to intense heat and humidity, but they found out something else entirely ...

A new study shows p62-mediated Mallory-Denk body formation is an adaptive, protective response to alcohol-induced liver ...

The chirality lies in the geometry Scanning electron microscopy (SEM) image of nickel-based artificial chiral magnets ...