Customer Insights

Resolution in a new dimension for solving challenges of society

The new GHz-class NMR technology is now enabling novel research in functional structural biology of proteins and protein complexes.



High field GHz-Class Magnets used for finding solutions for Structural Biology key questions

A key principle in biology is: structure determines function. Our customers try to understand how molecules interact with each other and then modify their function.

This is key in finding solutions against diseases like: Alzheimer, Parkinson, Cancer and covid-19.
The increased spectral resolution and sensitivity of the 1.2 GHz NMR has already enabled research teams to look more deeply at proteins and better understand the initial steps of amyloid-type protein aggregation as well as the function and structure of the Tau protein, both commonly associated with Alzheimer’s disease.  
 

Research includes the structures, dynamics and function of important globular proteins, membrane proteins and protein complexes.

Ultra-high field NMR is also unique in that it can study the properties and interactions of intrinsically disordered proteins (IDPs), which make up 30-50% of the human proteome. IDPs play a crucial functional rule in fundamental cell biology, and they are also implicated in many instances of disease biology.

Make Magnetic Resonance more relevant - 1.2 GHz – Resolution in a new dimension for solving challenges of society