There have been tremendous advances in the development of in-situ labeling and screening of different biological entities, ranging from cells to DNAs. Many approaches have been developed for this ...

QDs can bind covalently or non-covalently to biomolecules like antibodies, proteins, peptides, aptamer nucleic acids, small molecules, liposomes, lectins, and monosaccharides to identify specific ...

A new class of water-soluble quantum dots made from small numbers of gold atoms could be the basis for a new biological labeling system with narrower excitation spectra, smaller particle size and ...

A new class of water-soluble quantum dots made from small numbers of gold atoms could be the basis for a new biological labeling system with narrower excitation spectra, smaller particle size and ...

Protein labeling refers to the process of attaching a detectable tag or marker to a protein. This can be achieved through various chemical, enzymatic, genetic, or isotopic methods. The purpose of ...

The application space of label-free chemical imaging using coherent Raman scattering (CRS) microscopy in the life sciences and pharma/medical research is expanding rapidly. Ongoing advances in laser ...

Uniform protein labeling in intact tissues is a challenge. An approach that allows antibodies to seep within organs could label proteins in millions of cells. Conventional protein-tagging methods, ...

Scientists at Germany’s Max Planck Institute for Medical Research have developed protein recorders that can capture and analyze biological activities over multiple periods. The method is scalable and ...