Fluorescent proteins have revolutionised biological imaging by offering genetically encodable markers that emit visible light upon excitation. Central to their function is the chromophore, an ...

Fluorescent protein chromophores are the light‐emitting centres intrinsic to proteins such as green fluorescent protein (GFP) and its variants. These chromophores emerge through post‐translational ...

Researchers use directed evolution to create magneto-sensitive fluorescent proteins that can interact with magnetic fields and radio waves ...

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, ...

20 colors of bioluminescent protein “eNLEX". The method for changing bioluminescence color (top) and the bioluminescent image of 20-color eNLEX taken with a smartphone camera (bottom). Osaka, Japan – ...

Researchers at Umea University have developed a new method to directly follow viral infections in living organisms. This method can make infected cells produce fluorescent proteins, which means that ...

developed an efficient haploid identification (HID) system for wheat by seamlessly integrating a two-fluorescent protein-based HID toolbox with a MATRILINEAL (MTL) mutant haploid induction (HI) wheat ...

Holly has a degree in Medical Biochemistry from the University of Leicester. Her scientific interests include genomics, personalized medicine, and bioethics.View full profile Holly has a degree in ...

Proteins are the molecular machines of cells. They are produced in protein factories called ribosomes based on their blueprint—the genetic information. Here, the basic building blocks of proteins, ...

Key opportunities in the protein labeling market include increasing demand for site-specific tags in proteomics and drug development, the rise of AI tools for protein structure prediction, and the ...