OBBeC.com

Copenhagen (OBBeC) - Proteins play a crucial role in all our lives, from helping us to digest the food we eat to washing the clothes we wear. They are the  workhorses of our cells and core of our immune system.  Their possibilities are virtually limitless.

Two researchers at the Department of Biology at the University of Copenhagen, Assoc. professor Thomas Hamelryck and PhD-student Wouter Boomsma, have now solved an important part of the problem of modelling the three dimensional shape of proteins. After 5 years of research, they have succeeded in developing a mathematical model that incorporates knowledge from physics, probability theory and geometry to describe the structure of proteins. This has given protein researchers a valuable new tool for the improved understanding of the shape and function of proteins.

"Each individual protein has its own unique chemical composition, consisting of 20 different amino acids in various different combinations. There are an endless number of such combinations, each giving rise to its own shape. We have developed a simple mathematical model that captures these different shapes. This means that it will become easier for industry and researchers to use proteins to achieve their goals. For example in the development of green chemistry, where dangerous chemicals are replaced with protein-based products, which are more environment friendly", says Thomas Hamelryck.

Thomas also points to the fact that their computer model can have a great impact on the pharmaceutical industry.

"Proteins and illness are highly related, and most pharmaceuticals are targeted at proteins in our body. As we increase our knowledge of these proteins, the chance of finding more efficient pharmaceuticals for illnesses such as cancer, diabetes and AIDS are greatly enhanced", Thomas continues.

The two researchers at the University of Copenhagen are currently collaborating closely with partners in the biotech industry to explore these possibilities.