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Displaying results 11 to 20 of 73.
Transgenic Mice
Genetically modified mice can provide information about the function of particular genes or individual genetic elements. Further, they can be specifically designed to mimic certain physiologic or pathologic conditions. The Service Unit "Transgenic Mice" (TGSM) creates such genetically modified mice for researchers of the center.
Cellular Metabolism in Infection
With a focus on applying mass spectrometry and tracing approaches, the research group “Cellular Metabolism in Infection” (CMII) headed by Prof Thekla Cordes tracks metabolic pathways, leading to discoveries about the role of small molecules influencing immune cell metabolism and function.
Actinobacteria Metabolic Engineering
The growing resistance towards established antibiotics presents a serious problem especially with infectious diseases. The development of new drugs is mainly based on known molecules and mechanisms, which allows bacteria to assimilate rapidly. Hence, scientists are looking for novel drugs. At the Helmholtz Institute for Pharmaceutical Research Saarland (HIPS) , a site of the Helmholtz Centre for Infection Research (HZI) at Braunschweig, the researchers develop new pathways, by which they force actinomycetes to produce hitherto unknown compounds.
Chemical Biology
In their ongoing quest for new therapies against pathogens, scientists are focusing primarily on chemical agents. Discovering new bioactive compounds, characterising their functionality and optimising their properties are the three main goals of the Department of Chemical Biology (CBIO) at the HZI.
Recoding Mechanisms in Infections
Many important viruses such as Ebola, Influenza, and HIV use RNA as genetic material. These viruses have an extremely small genome size compared to the eukaryotic host genomes, and therefore employ various alternative translation strategies such as stop codon read through, leaky scanning, non-IRES initiation and ribosome frameshifting to express their genes by the host translation machinery. Interestingly, the same strategies are also used in the host’s cellular gene expression. With our research we aim to understand how translational recoding changes the rules of standard decoding, allows simultaneous encoding of multiple proteins from the same mRNA and regulates gene expression in time and space. This group is located at the Helmholtz Institute for RNA-based Infection Research (HIRI).
Single-cell Analysis
Pathogenic bacteria can reside in a mammalian host for a life-long period and chronic carriers form a reservoir leading to recurrent infections. Despite the importance of chronic infections for public health, how a subset of pathogens escape the host’s immune surveillance and how the host contains the spread of bacteria are still poorly understood. Scientists within the Single-Cell Analysis group develop and use single-cell transcriptomics and computational approaches to decipher the microenvironments of individual pathogens and ultimately their functional consequences on infection outcome. This group is located at the Helmholtz Institute for RNA-based Infection Research (HIRI).
Biomarkers of Infectious Diseases
The Research Group Biomarkers of Infectious Diseases aims to identify more accurate diagnostic, prognostic and predictive host biomarkers for infectious diseases and the vaccine response. The clinical aims of the group are to help select the most effective, individualized treatment as early as possible, aiming to streamline the use of anti-infectives (improve anti-infective stewardship) and to improve clinical outcome. This group is located at the TWINCORE in Hannover.
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.
Structural Infection Biology
To understand and eventually manipulate pathways that control the interaction of pathogens (e.g. bacteria, virus, parasite) with their hosts (e.g. human, plants) requires an interdisciplinary research approach, which often combines different fields of research such as cell biology and microbiology. In our laboratory, however, we take a closer look at the processes occurring during an infection at the cellular and atomic level by harnessing a variety of modern biophysical methods that allow addressing the spatio-temporal dynamics of an infectious disease at a high resolution. The department is located at the Center for Structural Systems Biology ( CSSB ) at the heart of the Germany’s largest accelerator center DESY (Deutsches Elektronen-Synchrotron) in Hamburg.
Structure and Function of Proteins
Structural biology is a powerful method to derive an understanding of the molecular basis of biological phenomena by visualizing the involved biomacromolecules at atomic resolution. The Department Structure and Function of Proteins uses protein crystallography to investigate proteins that play a role in infectious disease, e.g. by controlling the production of toxic molecules or by acting as toxins themselves. Our research in structural biology is complemented by biochemical and biophysical methods, and we employ all of these technologies to also aid drug discovery projects at the HZI.