However, this method has faced technical difficulties: Typically, the fluorescent component could only be attached to one protein at a time, and to label multiple proteins, cells usually had to be ...

Uniform protein labeling in intact tissues is a challenge. An approach that allows antibodies to seep within organs could ...

Imaging live cells with fluorescent proteins has long been a crucial technique for understanding cellular behavior. While ...

GFP, expanding its portfolio of secondary antibodies for life science research. GFP is widely used to monitor protein ...

A new technology developed at MIT enables scientists to label proteins across millions of individual cells in fully intact 3D ...

The CuRVE framework and its implementation in eFLASH mark a significant advancement in volumetric single-cell analysis.

Fluorescent protein-labeling techniques previously were irreversible, precluding repeated measurements of a protein's behavior. Now by highlighting molecules, tracking their motions, clearing their ...

This obstacle has now been cleared by the Stefan Kubicek-led research team at CeMM: Five different fluorescent colors can be ...

Imaging live cells with fluorescent proteins has long been a crucial technique for understanding cellular behavior. While bioluminescent proteins offer several advantages over fluorescent proteins, ...

The protein was then synthesized and tested in the lab. It glowed—a clear sign of success. The AI had effectively charted a ...

That's the equivalent of 500 million years of evolution being processed by AI, the research team estimates, and it opens the way to creating custom-made proteins that can be designed for specific uses ...

In some areas of mouse brains, they found that two-thirds of the neurons expressing PV (a protein prominent in certain inhibitory neurons) according to antibody labeling, did not show any ...