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Displaying results 51 to 60 of 81.
Computational Biology for Individualised Medicine
Infections are among the biggest threats to health and the most significant causes of death worldwide. Our aim is to reveal the host genetic risk factors and their downstream molecular pathways, which are crucial to make progress in understanding and treating infectious diseases in an individualised manner as well as to improve the identification of patients at risk. The department is part of the developing CiiM and currently housed at the TWINCORE in Hannover.
Antiviral and Antivirulence Drugs
Work in the Empting lab focuses on tackling innovative and difficult-to-address anti-infective targets such as bacterial virulence regulatory systems as well as un(der)explored anti-herpesviral persitance mediators. By this, we aspire to circumvent common resistance mechanisms and to refill the dried out development pipeline. This group is located at the Helmholtz Institute for Pharmaceutical Research Saarland (HIPS)
Antiviral Antibody-Omics
Antibodies are key components of the adaptive immune system and are critical for defending against infectious diseases. In our research group, we strive to gain a better understanding of the mechanisms of antibody-mediated protection, with the ultimate objective of creating novel and more effective vaccine and treatment strategies for infectious diseases. The junior research group is based at TWINCORE in Hannover.
Anti-infectives from Microbiota
The department of Prof Christine Beemelmanns focuses on the identification and functional analysis of novel anti-infective natural products from microbial communities. Co-cultivation studies as well as cell-based assays in combination with chemical-analytical and molecular-biological methods are used to evaluate and prioritize novel natural product producers. The department uses established and innovative metabolomic-, activity and genome-based methods to identify and determine the structure of the secreted natural products. Based on the isolated novel natural substances, the functional analysis and evaluation of their range of effects is carried out. This department is located at the Helmholtz Institute for Pharmaceutical Research Saarland (HIPS) .
Innate Immunity and Infection
The moment a pathogen, which has successfully entered the body, is recognized, the body quickly mobilizes its defenses. Interferons are molecules that are counted among the body’s first line of defense. They prevent proliferation and the spread of viruses in the body and serve to alert the immune system. Read here about the different ways we use to try and decode this system, all in an effort to find new approaches to infectious disease prevention and therapy.
Cellular Proteome Research
Pathogenic bacteria and viruses utilize and manipulate cellular processes of our immune system. The identification of protein functions in the human immune system that decisively control the progression of infections constitutes the central aim of the research group Cellular Proteomics at the HZI.
Cell Biology
Recent reports published by the World Health Organization (WHO) entitled "The Global Burden of Disease" (GBD) highlights the importance of research on host-pathogen interactions. Evolution is an ongoing process driving the development of highly virulent and multi-resistant bacteria strains or so called “emerging pathogens“. A deeper understanding of the complex interaction between pathogenic bacteria and their host is inevitable to face these problems in the future. As Cell biologists, we address host-pathogen interaction on the level of single cells, embodying the smallest living unit on both sides. Upon contact, pathogens need to manipulate the normal behavior of host cells in order to establish a niche for survival and to evade the hosts defense mechanisms. We study these induced changes on the cellular and molecular level, in order to exactly understand which host process is targeted by a given virulence mechanism an why.
Host-Pathogen-Microbiota Interactions
The importance of RNA in maintaining cellular physiology by controlling gene expression in response to intrinsic and external cues has long been underestimated. Now, numerous human diseases have been linked to RNA functioning. Likewise, we now know that bacterial pathogens harness a large suite of noncoding RNA molecules to adapt to environmental stress and to precisely regulate their virulence programs. In an era of antibiotic crisis, it is essential to discover alternative combat strategies against pathogenic bacteria — ideally ones that spare the beneficial microbial species. The high specificity of RNA molecules provides great potential for achieving these goals. This group is located at the Helmholtz Institute for RNA-based Infection Research (HIRI).
Drug Design and Optimization
In order to combat the increasing number of resistant pathogens, the development of new anti-infective drugs is an important goal for pharmaceutical research. Efficient medications with novel modes-of-action to fight infectious diseases are urgently needed. Below, you may read more about the design, identification and optimisation of new drug candidates. This group is located at the Helmholtz Institute for Pharmaceutical Research Saarland (HIPS) .
Drug Bioinformatics
Bioinformatics is instrumental in all areas of molecular biology, from analysis of genome sequences towards predicting three-dimensional structure of drug-target complexes. We apply cutting-edge bioinformatics and computer science techniques for discovery of novel resistance mechanisms and predicting mode-of-action of bioactive compounds. This group is located at the Helmholtz Institute for Pharmaceutical Research Saarland (HIPS)
