Proteins play a key role in the life sciences - from basic research and biotechnological applications to the development and manufacturing of pharmaceuticals. Scientists at the Technical University of ...

Proteins play a key role in the life sciences—from basic research and biotechnological applications to the development and manufacturing of pharmaceuticals. Scientists at the Technical University of ...

Tedious, time-consuming, exasperating: Those are perhaps the three words that researchers use most commonly to describe protein purification. Proteins, and their little sisters the peptides, are among ...

There are a wide variety of protein-based drugs that are used to treat various serious conditions. Insulin is perhaps the most well-known example, which is used for life-saving treatments for diabetes ...

For the novice protein purifier, finding a place to start might seem overwhelming, but fortunately the process can be approached systematically. Andrew Mitchell, technical consultant for Amersham ...

Single-particle cryo-electron microscopy (cryoEM) provides an attractive avenue for advancing our atomic resolution understanding of materials, molecules and living systems. However, the vast majority ...

The reprogramming of somatic cells into induced pluripotent stem cells using Yamanaka factors has revolutionized biomedical research. In the past few years, substantial advances have been made in ...

Protein samples are essential to advance our understanding of disease pathways and develop new therapeutics. High-quality filtration is needed to protect purity, yield and functionality of target ...

Within biopharmaceutical companies, crystallography is generally the purview of research scientists involved in structure-based drug design. Its potential for protein purification has been known for ...

Proteins play a key role in the life sciences -- from basic research and biotechnological applications to the development and manufacturing of pharmaceuticals. Scientists have developed a method that ...