This valuable study introduces a non-perturbative pulse-labeling strategy for yeast nuclear pore complexes (NPCs), employing a nanobody-based approach in order to selectively capture Nup84-containing ...

In a study published in Science Advances, a team of UC Davis researchers tracked the movement of fluorescent particles inside ...

Macrophages drive key immune processes including inflammation, tissue repair, and tumorigenesis via distinct polarization ...

Modern imaging is contributing significantly to giving us a better understanding of how our brains work. In the long term, this will also help us to treat learning disorders in a more targeted way and ...

Optical microscopy is a key technique for understanding dynamic biological processes in cells, but observing these high-speed ...

A new AI-powered method combines atomic force microscopy with deep learning to rapidly and accurately identify macrophage polarization states without labels or dyes. This approach offers real-time, ...

Multifocus microscope uses 25 tiny cameras to image rapid biological processes over the entire volume of small living organisms ...

Building a new microscope capable of tracking molecules inside cells and detecting the onset of diseases is the research plan ...

The study showcases a significant and important enhancement of the MAGIC transgenesis method, by extending it genome-wide to all chromosomes. The authors convincingly demonstrate that the MAGIC mosaic ...