This study presents a valuable technical advance in the long-term live imaging of limb regeneration at cellular resolution in Parhyale hawaiensis. The authors develop and carefully validate a method ...

The new CdTe-on-glass technology offers a lighter, cheaper, and highly radiation-resistant alternative, targeting 20% ...

During animal development, cells divide and arrange themselves in a coordinated way, eventually forming the embryo.

During animal development, cells divide and arrange themselves in a coordinated way, eventually forming the embryo. The cells ...

Esophageal adenocarcinoma (EAC), one of two major forms of esophageal cancer, is the sixth most deadly cancer worldwide for ...

Researchers used advanced microscopy to uncover important protein structures. For the first time, two important protein ...

Cryo-electron microscopy (cryo-EM) and cryo-electron tomography (cryo-ET) have revolutionized structural biology by enabling high-resolution imaging of biomolecules and cellular structures. However, ...

Rutgers’ biophysicists, bioengineers and plant biologists capture first live images of cellulose construction leading to potential practical applications A research team from Rutgers University-New ...

Nanoparticles moving within a graphene liquid cell are imaged using transmission electron microscopy, and the captured images are reconstructed in 3D over time. Credit: Nature Communications (2025).

Our biceps and our brain cells may have more in common than previously thought. New research led by the ...

Transmission electron microscopy of biological specimens at cryogenic temperatures (cryoEM) has become a widely used method to image biomolecules at high resolution, both in solution and within the ...

image: Senior author Haimei Zheng, left, and first author Qiubo Zhang look at the results of measurements obtained using their new technology, which pairs with powerful microscopes at Berkeley Lab ...