At first glance, the image (seen below) might look like a sci-fi plant structure, but it’s actually the actin, microtubules, ...

MEGAROBO, a leading provider of advanced productivity tools for life sciences, has recently unveiled the CellVuetm T2000 high-content cell imaging system. The new cell imaging system is more than a ...

Under the right circumstances, electrons can actually “freeze” into a bizarre solid form. Now, physicists at Berkeley Lab ...

Scientists have long wondered how the first cell membranes formed from the primordial soup—a new study offers up a recipe.

This study provides convincing evidence for functional subpopulations of β-cells responsible for Ca2+ signal initiation and maintenance using novel three-dimensional light sheet microscopy imaging and ...

A central question in adult stem cell biology is elucidating the signaling pathways regulating their dynamics ... Immunofluorescence imaging was performed using a Nikon E800, a Nikon Ti2-E Widefield, ...

A study shows how scientists can control cell division on demand outside of a living system. The work is a significant leap forward that can enhance our grasp of human biology and disease.

Electrons typically travel at high speeds, zipping through matter unbound. In the 1930s, physicist Eugene Wigner predicted ...

In a breakthrough, researchers show that a material called indium selenide can “shock” itself to transform from a crystalline ...

A study conducted at the Center for Research on Redox Processes in Biomedicine (Redoxoma) helps understand how high blood ...

It feels like the Splinter Cell remake has been on its way for a ... with Chaos Theory being the first to switch things up with a more open structure. It primarily involved tight corridors ...