The HZI is continuously building a network of closely aligned strategic partnerships with universities, research institutions and hospitals. Its primary objective is to create synergies which establish the optimal conditions for an efficient transfer of knowledge from basic research to medical application: HZI Locations.
Learn more about how the HZI, with its translational focus, will help to facilitate a faster and more targeted approach when it comes to fighting and preventing existing, emerging or recurring infectious diseases.
Around 900 employees in research, administration and infrastructure, and about 220 visiting scientists from 40 different countries are employed at the Helmholtz Centre for Infection Research. To ensure top quality research we need top quality employees. Your creativity and innovative capabilities are the basis for the long-term success of our work. That's why we undertake a great deal to attract the best people to us. Learn more about this.
We communicate also through social media. Join our Facebook page, follow us on Twitter or subscribe to our YouTube-Channel.
Systems BiologyThe goal of systems biology is to describe the dynamic processes of life and of biological systems using mathematical models. In line with the foundation of the new Braunschweig Integrated Centre of Systems Biology (BRICS) we have compiled some background information about systems biology for you: To the systems biology feature.
HomeResearchResearch TopicsBacterial and Viral PathogensComputational Biology of Infection ResearchTeam
Head of department Computational Biology of Infection Research
+49 531 391-55271
Software developer, system administrator
+49 531 391-55278
To study bacteria from a specific habitat, one used to have to culture them in the laboratory. The cultures grown in the laboratory were then analysed and identified. The progress of molecular genetic methods has led to the development of metagenomic methods, which enable the study of the great diversity of microbes for which cultivation conditions are unknown.
Modern sequencing technologies allow deciphering the entire genetic material – the genome – of a bacterium requiring only a short amount of time. This produces a huge amount of data with thousands of genes. However, the analysis of the bacterial properties encoded by these genes is time-consuming. Bioinformaticians of the Braunschweig Integrated Centre of Systems Biology (BRICS), a joint facility…
Metagenomics looks at the entirety of the genomic information of a habitat. There are various methods that can be used in investigations of this type. In fact, so many of them that it is often difficult to find the best fit for a certain analysis. For this reason, scientists of the Helmholtz Centre for Infection Research (HZI) in Braunschweig, the University of Vienna and the…
Seminar: Statistical Learning with Application in R
Seminar: Algorithms in phylogenetic inference and their application