Prof. Dr. Christoph Dehio

University of Basel
Klingelbergstrasse 50 / 70
CH - 4056 Basel
Biozentrum, Room 486 Phone: +41 61 207 21 40
Curriculum Vitae

Administrative Assistant

Claudia Erbel-Sieler
Biozentrum, Room 408
Phone: +41 61 207 10 84
Fax: +41 61 207 21 18


The clock is ticking: Self-activating protein stops growth of bacteria

During periods of nutrient deprivation or stress bacteria stop their growth. A...more

FIC proteins send bacteria into hibernation

Bacteria do not cease to amaze us with their survival strategies. Prof....more

Scientists from the Biozentrum involved in new projects, the Swiss Research Initiative in Systems Biology, and Swiss...more

Research group Christoph Dehio

How bacterial pathogens establish chronic infection

Type IV secretion (T4S) systems enable pathogenic bacteria to establish long lasting infection of the host eventually leading to chronic disease. Better understanding of the molecular mechanisms underlying long-term bacterium-host interaction is essential for the development of new medicinal products against infectious diseases.

Human vascular cells infected with Bartonella.

Infectious diseases of bacterial origin are a growing problem in today's society. The reasons for this are the increasing emergence of antibiotic resistant organisms, the reduction in immune defenses with age, and the rapid spread of new pathogens as a result of globalization. We have to understand the underlying molecular mechanisms in order to conceive new therapeutic approaches to pathogenic bacteria. Bacterial pathogens can survive for long periods in human hosts where they give rise to a chronic course of infection. This bacterial property, known as persistence, is still little understood.

Type IV secretion systems inject effector proteins into host cells

The goal of the work in our laboratory is to investigate chronic bacterial infections at the molecular and cellular level. Our focus is on bacterial effector proteins injected into the host cells by type IV secretion systems. These effector proteins alter targeted signaling pathways and the physiology of the host cells, which facilitate bacterial survive in the host.

Bartonella and Brucella as modal organisms for type IV secretion

We are studying the closely related pathogens Bartonella and Brucella, which cause chronic bacterial infections of varying severity in humans and animals. Their type IV secretion systems contribute decisively to establishing persistent infection and are therefore particularly suitable for our experiments in cell cultures and animal models.

Starting point for new drugs to combat infectious diseases

As part of the Swiss-wide systems biology initiative, we identify the cellular interaction partners of bacterial effector proteins. In addition, we characterize all the other host cell proteins relevant to the development of infection and test their suitability as starting points for designing new antimicrobial agents to combat chronic bacterial infections.