Large-Scale Projects

In the SFB/TRR 298, a new approach to implant research will be taken through synergistic cooperation between a wide range of disciplines: Through the scientific use of safety-relevant concepts from the engineering sciences, intelligent implant systems for musculoskeletal, dental and audioneurological applications are to be researched, which for the first time will allow continuous monitoring for the early detection of complications and thus a reaction to restore the initial condition. The development of chemical, biological and physical detection systems will enable the early detection of technical or biological complications. As a consequence of the detection, treatment-supported or autoregulatory reactions can be triggered to bring about technical or biological regeneration. The new systems developed here will merge into a digital implant lifecycle management system and lead to increased implant safety in the long term, to which communication research will also make an innovative contribution through research into doctor-patient interaction.

Contact at TU Braunschweig: Prof. Henning Menzel - Institute of Technical Chemistry
Participating institutes at TU Braunschweig: Institute of Technical Chemistry

The Hannover Medical School coordinates the SFB.

The CRC 1454 brings together the expertise of three faculties of the University of Bonn (Medicine, Mathematics and Natural Sciences, and Philosophy), the German Center for Neurodegenerative Diseases, the Max Planck Institute for Metabolic Research in Cologne, and the Braunschweig Integrated Centre of Systems Biology to address urgent questions about the causal link between modern lifestyle and the development of non-communicable diseases. The CRC investigates i. how anthropogenic stimuli trigger immune cell programming and metaflammation, ii. how the interaction of reprogrammed cells takes place in inflamed tissue, iii. how specific signaling pathways activated in metaflammation contribute to pathogenesis, iv. in a bi-directional translational approach the newly discovered mechanisms both in patient cohorts and in the longitudinal population study 'Rhineland Study'.

Contact person at TU Braunschweig: Prof. Karsten Hiller - Institute of Biochemistry and Biotechnology
Participating institutes of the TU Braunschweig: Institute of Biochemistry and Biotechnology

The Rheinische Friedrich-Wilhelms-Universität Bonn coordinates the SFB.

FOR 5200 is concerned with the study of strategies by which DNA viruses manipulate, evade or exploit nuclear gene expression networks during reinfection in order to satisfy the needs required in the particular cellular background to establish or maintain chronic infection. The central hypothesis is that such strategies can vary greatly depending on the specific nuclear environment and the state of the host cell.

Contact person at TU Braunschweig:  Prof. Dr. Melanie Brinkmann - Institute of Genetics

About the project

FOR 3004 brings together clinical researchers in the field of antibody-mediated diseases with basic scientists in the fields of neurophysiology, neurobiology and neuroimmunology to jointly investigate antibody-mediated CNS diseases. The aim of the research group is to elucidate the pathophysiology of autoimmune encephalitides in which autoantibodies are directed against synaptic proteins.

Contact at TU Braunschweig: Prof. Michael Hust - Institute of Biochemistry, Biotechnology and Bioinformatics

Participating institutes of the TU Braunschweig: Institute of Biochemistry, Biotechnology and Bioinformatics

About the project

Cytochalasans are natural substances that are produced by fungi and have numerous potent biological activities. They bind strongly to actin and thus drastically influence eukaryotic cells. In addition, they also show remarkable bioactivities in prokaryotes, where actin cannot be the target. They inhibit protein synthesis, sugar transport, plant growth, tumor necrosis factor and angiogenesis and are involved in immunosuppression as well as virulence and avirulence of fungi against plants and insects, although most of the molecular mechanisms underlying these processes are unknown. Cytochalasans consist of amino acids and polyketides and are often oxidatively modified. Several hundred representatives are known, yet very few systematic studies of structure-activity relationships have been performed because very few cytochalasans are commercially available.

The proposed CytoLabs research group aims to address these problems through a systematic and integrated collaboration of different groups with expertise in discovery, chemical synthesis, metabolic engineering, cell biology, in vivo and in vitro biochemistry, in planta studies and ecological studies of cytochalasans. The aim is to apply modern synthetic chemistry (Kalesse, Klahn) and synthetic biology (Cox) to rapidly generate known and new cytochalasans.

Contact at TU Braunschweig:  Prof. Dr. Klemens Rottner - Institute of Zoology

CircularLIB is a doctoral program for the circular production and use of lithium-ion batteries. The three universities TU Braunschweig, TU Clausthal and Leibnitz University Hannover are cooperating in this program together with the Fraunhofer Institute for Surface Engineering and Thin Films IST.

Contact at TU Braunschweig: Prof. Dr.-Ing. Arno Kwade - Institute of Bioprocess Engineering

About the project

Severe diseases caused by viral infections pose a threat to human society, either as acute epidemics with dramatic consequences or as chronic viral infections in individuals with increased susceptibility, e.g. due to a weakened immune system. The development of efficient antiviral intervention strategies can be reduced to two steps: 1) a detailed understanding of an essential process within the viral life cycle and 2) the use of this knowledge to develop antiviral strategies. Virological research has shown that there is an urgent need to extend our understanding to the mechanistic level, i.e. how viral proteins and protein complexes exert their functions in the host cell.

We therefore propose an interdisciplinary research training group with three main objectives:

1. To train a new generation of scientists for viral infection research at the interface between virology and structural biology.
2. Further development of integrative methods that bridge a wide range of resolution in virology.
3. Application of these interdisciplinary approaches to challenging virological questions in order to develop new antiviral intervention strategies.

Contact at TU Braunschweig: Prof. Dr. Melanie Brinkmann - Institute of Genetics

Participation with Christian-Albrechts-Universität zu Kiel - Prof. Susanne Engelmann 

About the project

Max Delbrück Center for Molecular Medicine (MDC) - Prof. Martin Korte

About the project

University of Hamburg - Prof. Miguel Vences

About the project