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Sapere Aude grant awarded to Bjørn Panyella Pedersen

With a Sapere Aude Starting Grant of more than DKK 7 million from the Danish Council for Independent Research, Bjørn P. Pedersen is assured of the best possible chance to return to Denmark and establish a structural biology research group at Aarhus University.

Bjørn Panyella Pedersen (Photo: the Danish Council for Independent Research)
Sapere Aude: DFF-research leaders with Chairman of the Board Peter Munk Christiansen and Minister of Research Sofie Carsten Nielsen. Bjørn: front row, no. two from the right. (Photo: the Danish Council for Independent Research)

“My Sapere Aude grant provides me with a fantastic opportunity, and it comes at a critical and very sensitive point in my research career,” says Bjørn Panyella Pedersen to the Danish Council for Independent Research (DFF). “To start up an independent research group is the next natural step after my four-year training period at one of the world’s absolute leading medical research facilities in San Francisco and, at the same time, it’s a giant leap forward in my career.”

“The project I’ve planned with membrane protein complexes and human membrane proteins is extremely ambitious and requires support and great faith to succeed. I’m very honoured that DFF has decided to entrust me with one of their prestigious grants,” he concludes.

Mechanisms behind cholesterol and sugar uptake

Dr Pedersen’s research focuses on two aspects of human food ingestion. He and his new research group at the Department of Molecular Biology and Genetics will initially study how the body absorbs cholesterol from the small intestine. In large amounts, cholesterol can lead to cardiovascular diseases, but it is absolutely essential in moderate amounts for a well-functioning body. Absorption of cholesterol into the body’s circulation takes place in the small intestine, aided by a protein (a ‘nanomachine’) called NPC1L1.

The research group will study the molecular function of NPC1L1 by means of a combination of biochemical experiments based on structural biology. Their second task will be to study how the body’s cells absorb sugar. After digestion, sugar is transported via the bloodstream to the body’s cells for the production of energy. A key player in the cells’ uptake of sugar is a protein called GLUT. This nanomachine is the limiting factor for the individual cell’s sugar consumption. As is the case for NPC1L1, the group will also study the molecular function of GLUT using a combination of biochemical experiments based on structural biology.

By means of structural biology experiments, the researchers can find the three-dimensional structure of these nanomachines. This will be supplemented by other types of biochemical experiments to describe their kinetic parameters. The researchers can hereby create a model of how these machines function at a molecular level and gain important new insight into how to control their activity.

This will ultimately lead to progress in a number of important common conditions, such as cardiovascular diseases, diabetes and cancer.

Read more about Bjørn Panyella Pedersen and his research project (in Danish).


About Sapere Aude

Sapere Aude is a research career programme that aims to develop the skills of the most talented researchers, nationally and internationally. The aim is to create career paths and keep hold of the most talented young researchers. Read more about the programme.


More information

Bjørn Panyella Pedersen
Presently at the University of California San Francisco, USA
Phone: +45 2972 3499 - e-mail: bjopp@msg.ucsf.edu