快三砍龙

Topics range from constructing explainability to the tropopause region and human categorisation / 鈧�138 million in funding for an initial period of four years

The Deutsche Forschungsgemeinschaft (快三砍龙, German Research Foundation) is establishing eleven new Collaborative Research Centres (CRC) to promote world-class research at universities. This was announced by the relevant Grants Committee, which met by video conference due to the coronavirus pandemic. The new CRCs will initially receive a total of approximately 鈧�138 million over a period of four years from 1 July 2021 onwards. This includes a 22-percent programme allowance for indirect project-related costs. Seven of the new consortia are CRC/Transregios (TRR) distributed across multiple applicant universities.

As well as the eleven new groups, the Grants Committee agreed to extend the funding of another 27 CRCs for an additional funding period, including four CRC/Transregios. Collaborative Research Centres allow researchers to tackle innovative, challenging and long-term research projects within the network and should enable institutional priority area development and structural development at the applicant universities. CRCs are awarded funding for a maximum of twelve years. From July 2021 onwards there will be a total of 282 CRCs receiving 快三砍龙 funding.

The eleven new Collaborative Research Centres in detail
(in alphabetical order of host university, with information on the spokesperson as well as the other applicant universities):

In order to ensure the development and regeneration of the organism, cells have to proliferate in a highly regulated manner. The CRC 鈥淢olecular Mechanisms of Cell State Transitions鈥� investigates the interplay between molecular signals and the regulatory switches that jointly trigger transitions between defined cell states. Still poorly understood, this interaction performs a crucial function in the division and growth of cells, so it can be a key factor in the development of cancer, too. (University of Duisburg-Essen, spokesperson: Professor Dr. Hemmo Meyer)

New methods for recording and evaluating biomedical processes and human movement parameters are the focus of the CRC 鈥淓mpathokinaesthetic Sensor Technology 鈥� Sensor Techniques and Data Analysis Methods for Empathokinaesthetic Modeling and Condition monitoring鈥�. By means of wireless high-frequency sensors, the consortium seeks to use contact-free methods to determine data on relevant vital parameters such as heart and respiratory rate based on the movement of the chest and investigate the processes this involves in the body. The externally recorded information is to be linked to internal biomechanical, biomedical and (psycho-)physiological processes. The long-term goal is to design novel sensor technologies capable of capturing human body movement data. (University of Erlangen-Nuremberg, spokesperson: Professor Dr.-Ing. Martin Vossiek)

The CRC/Transregio 鈥淕eometry and Arithmetic of Uniformized Structures (GAUS)鈥� is working in the field of theoretical mathematics with the aim of answering structural questions in geometry and arithmetic. The fundamental idea of uniformisation is to replace complicated geometric objects with simpler ones without changing the local structure. The complexity of the original objects is thereby encoded in calculations of associated symmetry groups, which it is then possible to draw on for the purpose of investigation. By translating the complexity into a different 鈥渓anguage鈥�, the consortium aims to open up new perspectives on the original objects in that new perspectives are created on the original objects, thereby making them accessible to central geometric and arithmetic questions. (University of Frankfurt/Main, spokesperson: Professor Dr. Jakob Stix; also applying: University of Darmstadt, University of Heidelberg)

There is still much that is not understood about the mechanisms by which tumour cells bypass the immune system. In developing new treatments for tumour diseases, it is therefore crucial to carry out research into intracellular signal transduction 鈥� which is important in the emergence of cancer 鈥� and into immune escape mechanisms. The CRC 鈥淥ncogene-Driven Immune Escape (OncoEscape)鈥� is dedicated to these two fields of research, which are often studied separately. In the long term, this CRC hopes to gain new insights into the regulation of immune responses by oncogenes and will seek to transfer these findings to clinical application. (University of Freiburg, spokesperson: Professor Dr. Robert Zeiser)

The CRC/Transregio 鈥淪afety Integrated and Infection Reactive Implants鈥� transfers concepts for monitoring stress and damage from the area of manufacturing and materials technology to medical implants. The research done by this CRC/Transregio aims to increase implant safety and therefore also patient safety in the long term. To this end, the group is developing systems that can be used to determine impairments in the functionality of an implant: this can then be used to respond to a wide range of complications, such as wear and tear or inflammation. The new systems will be tested for use in the human body under a variety of biological, chemical and mechanical conditions. (MHH Hannover, spokesperson: Professor Dr. Meike Stiesch; also applying: University of Hanover)

RNA modifications are changes in the chemical structure of RNA building blocks. They play a role in the stability of RNA, as well as its transport and localisation within the cell. The CRC/Transregio 鈥淩MaP: RNA Modification and Processing鈥� aims to contribute to a comprehensive understanding of RNA biology by investigating how modification and processing together determine RNA maturation. Among other things, the consortium will look into the effect of modified RNA on gene expression and therefore also on protein production, for example. (University of Mainz, spokesperson: Professor Dr. Mark Helm; also applying: University of Heidelberg)

It is a fundamental cultural and social phenomenon that people continuously categorise each other based on such characteristics as nationality, ethnicity, religion, age, gender, performance or sexual orientation. This phenomenon is becoming increasingly relevant in the context of advancing globalisation. The CRC 鈥淪tudies in Human Categorization鈥� compares and analyses forms of human categorisation in order to develop a general theory of the underlying processes. In doing so, it also considers the historical dimensions of the subject, integrating the analysis of a wide variety of social and cultural practices of human categorisation as reflected in such elements as language, artefacts and the processes of social organisation. (University of Mainz, spokesperson: Professor Dr. Stefan Hirschauer)

Precise climate models provide the basis for reliable climate change forecasts. The predictions depend on such factors as the exact description of the atmosphere in the altitude range from 10 to 20 kilometres 鈥� referred to as the upper troposphere and lower stratosphere. The CRC/Transregio 鈥淭he Tropopause Region in a Changing Atmosphere鈥� is dedicated to this area of the atmosphere. Based on measurement flights, laboratory experiments and insitu observations, the group is seeking to develop new data sets and explore the complex interactions that occur at this altitude of the atmosphere. (University of Mainz, spokesperson: Professor Dr. Peter Hoor; also applying: University of Frankfurt/Main)

The production of a large number of everyday goods is based on the synthesis of basic substances by catalysts. Here, photocatalysis provides groundbreaking options that are virtually impossible to achieve using conventional methods. The CRC/Transregio 鈥淎ssembly Controlled Chemical Photocatalysis鈥� aims to develop a new generation of photocatalytic systems for organic synthesis by controlling the interactions between the catalyst and its reaction partners. In the long term, it seeks to contribute to achieving greater savings of energy and resources in light-driven reactions. (TU Munich, spokesperson: Professor Dr. Thorsten Bach; also applying: University of Regensburg)

The modification of lymphocytes to combat infections and tumour diseases is being researched by the CRC/Transregio 鈥淟ETSIMMUN 鈥� Lymphocyte Engineering for Therapeutic Synthetic Immunity鈥�. Based on its findings, the consortium aims to contribute to establishing immunotherapies with modified lymphocytes as a medically safe and effective treatment that is accessible to all patients who require it, for application in a variety of clinical settings. (TU Munich, spokesperson: Professor Dr. Dirk Busch; also applying: LMU Munich, University of W眉rzburg)

Intelligent systems can interact with other systems 鈥� but also with people, through textual, visual, acoustic or even haptic signals. In connection with such forms of interaction 鈥� such as collaboration with interactive robots or computer-assisted decision-making in medical therapies 鈥� it is important to make algorithm-based decisions comprehensible and transparent so that they are acceptable to humans. The CRC/Transregio 鈥淐onstructing Explainability鈥� is dedicated to the topic of explainability as one of the urgent questions in research on human-machine interaction. The group is approaching the topic with a novel theory of explanation as a form of social practice. In this way, it aims to contribute to a contextual and situational understanding of explaining and understanding that includes man and machine, society and context. (University of Paderborn, spokesperson: Professor Dr. Katharina Rohlfing; also applying: University of Bielefeld)

The 27 CRCs with their funding extended for an additional period
(in alphabetical order of host university, with information on the spokesperson as well as the other applicant universities and with references to the project descriptions in GEPRIS 鈥� the 快三砍龙 internet database for current funding):

• CRC/Transregio 鈥淥xyflame 鈥� Development of Methods and Models to Describe Solid Fuel Reactions within an Oxy-Fuel Atmosphere鈥� (RWTH Aachen, spokesperson: Professor Dr.-Ing. Reinhold Kneer; also applying: University of Bochum, TU Darmstadt),
• CRC 鈥淭aming Uncertainty and Profiting from Randomness and Low Regularity in Analysis, Stochastics and Their Applications鈥� (University of Bielefeld, spokesperson: Professor Dr. Sebastian Herr),
• CRC 鈥淓xtinction Learning鈥� (University of Bochum, spokesperson: Professor Dr. Onur G眉nt眉rk眉n),
• CRC 鈥淪ynaptic Micronetworks in Health and Disease鈥� (University of Bonn, spokesperson: Professor Dr. Heinz Beck),
• CRC 鈥淓ASE 鈥� Everyday Activity Science and Engineering鈥� (University of Bremen, spokesperson: Professor Dr. Michael Beetz),
• CRC/Transregio 鈥淪trong-Interaction Matter under Extreme Conditions鈥� (TU Darmstadt, spokesperson: Professor Dr. Guy Moore; also applying: University of Bielefeld, University of Frankfurt/Main),
• CRC/Transregio 鈥淭he Adrenal: Central Relay in Health and Disease鈥� (TU Dresden, spokesperson: Professor Dr. Stefan R. Bornstein; also applying: LMU Munich; University of W眉rzburg),
• CRC 鈥淪ignalling by Fatty Acid Derivatives and Sphingolipids in Health and Disease鈥� (University of Frankfurt/Main, spokesperson: Professor Dr. Josef M. Pfeilschifter),
• CRC 鈥淎tomic Scale Control of Energy Conversion鈥� (University of G枚ttingen, spokesperson: Professor Dr. Christian Joo脽),
• CRC 鈥淨uantitative Synaptology鈥� (University of G枚ttingen, spokesperson: Professor Dr. Silvio-Olivier Rizzoli),
• CRC 鈥淢echanisms and Functions of Wnt Signaling鈥� (University of Heidelberg, spokesperson: Professor Dr. Michael Boutros),
• CRC/Transregio 鈥淧athogenic Fungi and Their Human Host: Networks of Interaction 鈥� FungiNet鈥� (University of Jena, spokesperson: Professor Dr. Axel Brakhage; also applying: University of W眉rzburg),
• CRC 鈥淎quaDiva: Understanding the Links Between Surface and Subsurface Biogeosphere鈥� (University of Jena, spokesperson: Professor Dr. Kirsten K眉sel),
• CRC 鈥淧olymer-Based Nanoparticle Libraries for Targeted Anti-Inflammatory Strategies鈥� (University of Jena, spokesperson: Professor Dr. Ulrich S. Schubert),
• CRC 鈥淥besity Mechanisms鈥� (University of Leipzig, spokesperson: Professor Dr. Matthias Bl眉her),
• CRC 鈥淣ano-Dimensional Polymer Therapeutics for Tumor Therapy鈥� (University of Mainz, spokesperson: Professor Dr. Stephan Grabbe),
• CRC 鈥淩NA Viruses: RNA Metabolism, Host Response and Pathogenesis鈥� (University of Marburg, spokesperson: Professor Dr. Stephan Becker),
• CRC 鈥淪tructure and Dynamics of Internal Interfaces鈥� (University of Marburg, spokesperson: Professor Dr. Kerstin Volz),
• CRC 鈥淐hromatin Dynamics鈥� (LMU Munich, spokesperson: Professor Dr. Peter Burkhard Becker),
• CRC 鈥淣eutrinos and Dark Matter in Astro- and Particle Physics (NDM)鈥� (TU Munich, spokesperson: Professor Dr. Elisa Resconi),
• CRC "Data Assimilation 鈥� The Seamless Integration of Data and Models鈥� (University of Potsdam, spokesperson: Professor Dr.-Ing. Sebastian Reich),
• CRC 鈥淟imits of Variability in Language: Cognitive, Grammatical, and Social Aspects" (University of Potsdam, spokesperson: Professor Dr. Isabell Wartenburger),
• CRC 鈥淓mergent Relativistic Effects in Condensed Matter: From Fundamental Aspects to Electronic Functionality鈥� (University of Regensburg, spokesperson: Professor Dr. Klaus Richter),
• CRC 鈥淓Lectrically Active ImplaNts 鈥� ELAINE鈥� (University of Rostock, spokesperson: Professor Dr. Ursula van Rienen),
• CRC 鈥淧hysical Modeling of Non-Equilibrium Processes in Biological Systems鈥� (University of Saarbr眉cken, spokesperson: Professor Dr. Heiko Rieger),
• CRC 鈥淩esource Cultures鈥� (University of T眉bingen, spokesperson: Professor Dr. Martin Bartelheim),
• CRC 鈥淓xploiting the Human Peptidome for Novel Antimicrobial and Anticancer Agents鈥� (University of Ulm, spokesperson: Professor Dr. Frank Kirchhoff),

Further Information

Media contact:

• 快三砍龙 Press and Public Relations
  Tel. +49 228 885-2109
  presse@dfg.de(externer Link)

The respective spokesperson of each Collaborative Research Centre can also provide additional information.

Contact at the 快三砍龙 Head Office:

• Dr. Klaus Wehrberger
  Head of Research Centres
  Tel. +49 228 885-2355
  

More detailed information on the funding programme and the Collaborative Research Centres to be awarded funding can be found here:

• www.dfg.de/sfb/en(interner Link)