A team of scientists led by the University of Oxford have achieved a significant breakthrough in detecting modifications on protein structures. The method, published in Nature Nanotechnology, employs ...

An engineered protein nanopore directed a water flux strong enough to capture, unfold and translocate proteins exceeding 1200 amino acids in length. Modulation of electrical current during protein ...

Protein sequencing presents different challenges than nucleic acid sequencing, meaning that proteomics has yet to benefit as much as genomics from the next-generation sequencing revolution. However, ...

A research team led by Professor Haichen Wuof the Chinese Academy of Sciences (CAS) Institute of Chemistry and Professor Lei Liu of the CAS Institute of High Energy Physics, along with their ...

Using an ionic solution, protein sequences can now be pulled through a nanopore. Researchers at the University of Groningen (The Netherlands) have found a way to transport a protein through a nanopore ...

OXFORD, England & MARCY-L’ETOILE, France--(BUSINESS WIRE)--Oxford Nanopore Technologies plc (LSE: ONT) (“Oxford Nanopore”), the company delivering a new generation of nanopore-based molecular sensing ...

There are many different tools, both old and new, for characterizing proteins. For ranking and comparing the stability of biologics and formulations, the most established tools rely on temperature ...

Human cells contain approximately 20,000 protein-encoding genes. However, the actual number of proteins observed in cells is far greater, with over 1,000,000 different structures known. These variants ...

image: An engineered protein nanopore directed a water flux strong enough to capture, unfold and translocate proteins exceeding 1200 amino acids in length. Modulation of electrical current during ...