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Displaying results 651 to 660 of 676.
Clinical Bioinformatics
The Department “Clinical Bioinformatics” is concerned with analyzing molecular information using computer-based methods such as machine learning, artificial intelligence, or other algorithms. Its focus lies on spatially and temporally resolved processes to help understand how bacteria, as producers of natural products, interact with humans and can trigger or even protect against disease. This department is located at the Helmholtz Institute for Pharmaceutical Research Saarland (HIPS) .
Immune Regulation
Due to their physiological functions our mucosal surfaces are in direct contact to the environment and thus represent the major port of entry for pathogens. To protect the body from severe infections an effective mucosal immune system is indispensable. We are studying respiratory tract infections with the focus on influenza and pneumococci, which represent the most frequent viral and bacterial infectious agents for pneumonia in humans. A major focus of our research is to study molecular and cellular processes during coinfection with influenza and pneumococci and here in particular the immunological functions of the alveolar epithelium in host defense.
Mouse Pathology
Histology is the science of tissues and pathology. In a sense, it is also the science of diseases and their pathogenesis. The major concern of histologists working in our service unit is helping other HZI researchers make this connection and work out the details of the relationship between histological changes at the tissue level and the infectious diseases they are studying.
Biosafety Level 3 Laboratory
Biological agents of risk group 3 (RG3) pose a constant global as well as national challenge because they cause severe illnesses in humans against which there are usually no effective preventive or treatment measures. Since these pathogens can only be handled in special biosafety level 3 (BSL3) laboratories, the modern BSL3 laboratories at the HZI provide a technology platform that is indispensable in today's infection research - only in this way can our scientists develop new therapies, prevention measures or diagnostic procedures against these pathogens.
Molecular Structural Biology
Combating infectious diseases depends critically on a deep understanding of the underlying molecular processes. Structural biology plays a crucial role in advancing biomedicine by providing valuable insights into the structure, function, and interactions of biological macromolecules at the atomic and molecular level. It combines state-of-the-art techniques such as X-ray crystallography, nuclear magnetic resonance (NMR) spectroscopy and cryo-electron microscopy (cryo-EM) as well as advanced computer-based structure prediction methods to elucidate and analyze the three-dimensional structures of proteins, nucleic acids, and other biomolecules. Thus structural biology plays a critical role in infection research by providing a precise view on virulence factors, host-pathogen interactions, and the mechanisms of pathogenesis and host defense, paving the way towards the development of new anti-infectives and vaccines.
Molecular Bacteriology
Hospital-acquired infections are a major challenge and cause suffering, incapacity and death. In many cases the pathogens are resistant to antibiotics and, therefore, very difficult to combat. Read more about how bacteria join forces and what the researchers can do to avoid that. The group Molecular Bacteriology is based at the HZI and the TWINCORE in Hannover.
One Health Surveillance
The One Health Surveillance Core Unit facilitates the comprehensive long-term collection of samples and data on human, animal and environmental health. This sample collection serves as the basis for research in HIOH‘s departments, as well as for collaboration with our partners.
Ecology and Emergence of Zoonoses
Zoonoses, diseases transmitted between animals and humans, substantially threaten human health, but also domestic animals and wildlife. Influenced by climate change, globalization, anthropogenic disturbance and habitat fragmentation, contacts at human-animal interfaces become more frequent, thus increasing the risk of zoonotic emergence and, ultimately, pandemics. Our research aims to understand emergence and ecology of such zoonoses, i.e., how pathogens are transmitted between populations, landscapes and ecosystems. By incorporating data on the biotic and abiotic context of these transmissions, we generate evidence that allows us to contribute to pandemic preparedness and prevention. This department is located at the Helmholtz Institute for One Health (HIOH) .
