The Core Facilities at the University of Bonn have a lot to offer
The University of Bonn is continuously expanding its research infrastructure – thereby creating the foundation for the success of its researchers. Under the umbrella of the Bonn Technology Campus (BTC), 14 core facilities are now available for university-wide use, combining cutting-edge technologies, specialized expertise, and comprehensive services. They provide all researchers at the university with access to instruments and methods that would often be inaccessible or difficult to obtain for individual research groups. In doing so, the University of Excellence creates the conditions necessary to put research ideas into practice at the highest level.
How to acknowledge core facilities properly.
First of all, we would like to express our sincere gratitude to the authors of the more than one hundred publications in 2024 that acknowledged support from the core facilities. It means a great deal to us and is highly valued. As we mentioned, this is important to us. Acknowledgements provide us with indicators for technology awareness, strategic planning and targeted investment. Furthermore, these acknowledgements are important to our funding agencies, whose funding forms the basis of a sustainable financing model for our core facilities. 
Fat cells under false command
Too much fat can be unhealthy: how fat cells, so-called adipocytes, develop, is crucial for the function of the fat tissue. That is why a team led by researchers from the University Hospital Bonn (UKB) and the University of Bonn investigated the influence of primary cilia dysfunction on adipocyte precursor cells in a mouse model. They found that overactivation of the Hedgehog signaling pathway causes abnormal development into connective tissue-like cells instead of white fat cells. Their findings have now been published in The EMBO Journal.
How obesity also affects the next generation
Children born to obese mothers are at higher risk of developing metabolic disorders, even if they follow a healthy diet themselves. A new study from the University of Bonn offers an explanation for this phenomenon. In obese mice, certain cells in the embryo’s liver are reprogrammed during pregnancy. This leads to long-term changes in the offspring’s metabolism. The researchers believe that these findings could also be relevant for humans. The study has now been published in the journal Nature. 
Service for Science: Start-up for the Research Community
Dr. Katharina C. Cramer, Nicolas Rüffin, and Dr. Kristofer Rolf Söderström have successfully made the transition from researchers to entrepreneurs and founded the start-up TILLER ALPHA GmbH in early 2025. “It’s important to us to communicate this change of roles openly,” emphasizes Katharina. Their clients, like themselves, come from the scientific community: TILLER ALPHA provides data-driven and AI-supported analyses for research infrastructures. Katharina also explored this topic in her research at the Center for Advanced Security, Strategic and Integration Studies (CASSIS) at the University of Bonn. In this interview, she explains their business idea, the start-up journey, and the support they received from the Transfer Center enaCom.
Bacterium Produces “Organic Dishwashing Liquid” to Degrade Oil
The marine bacterium Alcanivorax borkumensis feeds on oil, multiplying rapidly in the wake of oil spills, and thereby accelerating the elimination of the pollution, in many cases. It does this by producing an “organic dishwashing liquid” which it uses to attach itself to oil droplets. Researchers from the University of Bonn, RWTH Aachen University, Heinrich Heine University Düsseldorf and research center Forschungszentrum Jülich have now discovered the mechanism by which this “organic dishwashing liquid” is synthesized. Published in the prominent international journal Nature Chemical Biology, the research findings could allow the breeding of more efficient strains of oil-degrading bacteria.
Immune Cells Drive Congenital Paralysis Disease
Patients with spastic paraplegia type 15 develop movement disorders during adolescence that may ultimately require the use of a wheelchair. In the early stages of this rare hereditary disease the brain appears to play a major role by over-activating the immune system, as shown by a recent study published in the Journal of Experimental Medicine. The study was led by researchers at the University of Bonn and the German Center for Neurodegenerative Diseases (DZNE). These findings could also be relevant for Alzheimer's disease and other neurodegenerative conditions.
New way to prevent duodenal cancer
People with the hereditary disease familial adenomatous polyposis (FAP) have a greatly increased risk of developing a malignant tumor of the duodenum. Researchers at the University Hospital Bonn (UKB) and the Cluster of Excellence ImmunoSensation2 at the University of Bonn have now discovered a mechanism in the local immune system that can drive the development of cancer. They see this as a promising new approach to preventing duodenal carcinoma in people with FAP. The results have now been published in the journal "Nature Communications".
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