Research project aims to shed new light on how proteins in viruses bind to molecules

The way in which molecules interact forms the basis of life and treating illness. But what does it look like when a viral protein meets and binds to molecules like those found in medications? A new research project has been awarded DKK 65 million by the European Research Council and will now aim to shed light on this hitherto invisible process.

The team members are taking a break during project planning. In the picture: Mikael Akke, Lund University, Kresten Lindorff-Larsen, University of Copenhagen, and Eike-Christian Schulz, University Medical Center Hamburg-Eppendorf. Photo: Giulio Tesei

Proteins are essential for every process that makes life possible. So, understanding how they work is crucial. For example, when they allow medications to work by binding to the molecules of which the medication consists of. So far, this is a vital process that has been virtually impossible to observe directly through experiments, though efforts have been made to imitate it using somewhat rigid computer models.

Our current description of proteins as static molecules limits our ability to understand them. They make spontaneous transitions between different states and some of these movements are rare and often invisible to traditional research methods. This research project will shed new light on the invisible processes, so that we gain a deeper understanding of them and what happens when a protein binds to another molecule."

Professor Kresten Lindorff-Larsen from the Linderstrøm-Lang Centre for Protein Science at the University of Copenhagen's Department of Biology

The result can be compared to a movie

In practical terms, the researchers will study how proteins in viruses such as HIV and SARS-CoV-2 bind to molecules that occur naturally in cells and are like those found in pharmaceuticals. The purpose is to map how the structure and energy of proteins changes during the binding process.

To study these miniscule binding processes in the world of proteins, it is necessary to combine several measurement methods, of which each participating research team is an expert in. The Department of Biology is contributing molecular simulations and other calculation tools, Lund University is performing nuclear magnetic resonance spectroscopy and Hamburg is adept at time-resolved X-ray crystallography.

"You could say that we're moving structural biology into a new era of protein dynamics, in which it is necessary to combine our various methods to understand and quantify all the details. One method provides valuable information for the other, and by combining and integrating these methods, we can jointly contribute to the creation of entirely new knowledge about how proteins and smaller molecules interact," says Kresten Lindorff-Larsen.

According to the researchers, the result can be compared to an advanced molecular film that describes how molecules and proteins bind to each other. The researchers hope to gain new insight into how long it takes for a drug molecule to bind to a protein in the body and for how long the molecule stays there. Knowledge that, in the long run, could lead to uniquely designed and more effective medications.

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University of Copenhagen – Faculty of Science

Posted in: Molecular & Structural Biology | Biochemistry | Histology & Microscopy

Tags: Biochemistry, Crystallography, HIV, Ligand, Medicine, Molecule, Pharmaceuticals, Protein, Research, Research Project, SARS, SARS-CoV-2, Spectroscopy, Structural Biology, X-Ray

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