Bahnbrechende Forschung würdigen
Herausragende wissenschaftliche Talente und bahnbrechende Forschungsthemen in den Life Sciences identifizieren und einzigartige Chancen zur Kollaboration ermöglichen
Herausragende Wissenschaftler*innen
Frühere Preisträger*innen
Wir sind davon überzeugt, dass Wissenschaft die Grundlage für gesellschaftlichen Fortschritt ist und dass Forschung, die die Grenzen unseres Wissens auslotet, die Basis dafür bildet, wie wir die Herausforderungen einer sich stetig verändernden Welt meistern können. Deshalb würdigen wir herausragende wissenschaftliche Leistungen mit unseren vier renommierten Auszeichnungen: Dem Otto-Bayer-Preis für bahnbrechende Forschung in der Chemie und Biochemie, dem Familie-Hansen-Preis für Fortschritte in medizinischer Forschung, unseren Early Excellence in Science Awards für außergewöhnliche, junge Talente und unserem Bayer Thrombosis Research Award.
Seit der ersten Verleihung 1984 haben wir über 80 brillante Köpfe ausgezeichnet, darunter die Nobelpreisträger*innen Benjamin List, Emmanuelle Charpentier, Stefan Hell und Christiane Nüsslein-Volhard. Dabei wurden Durchbrüche in unterschiedlichen Bereichen – von der synthetischen Biologie, über Pflanzengenetik und Molekülspektroskopie bis hin zu Machine Learning – gewürdigt.
Auf der Seite zu unseren Auszeichnungen lesen Sie mehr darüber, warum wir der Ansicht sind, dass Preise einen wichtigen Mechanismus darstellen, nicht nur, um herausragende Leistungen zu würdigen, sondern auch um die Zusammenarbeit in der Wissenschaft zu fördern und Möglichkeiten zu bieten, die Durchbrüche in der Grundlagenforschung in Lösungen umzuwandeln, die sich auf das Leben aller Menschen auswirken.
Otto Bayer Award for chemisty and biochemistry
2020 Prof. Dr. Ruth Ley
Microbiome
For her groundbreaking discoveries of the importance of human gut microorganisms for human health. She was the first scientist revealing the link between the composition of the human microbiome and the occurrence and manifestation of obesity in humans. Her scientific work has sparked novel research paths towards the understanding of the involvement of the human microbiome in metabolic disorders, neurological diseases, and cancer. Her work will certainly support the development of new therapies to treat serious human diseases.
Max-Planck-Institut für Entwicklungsbiologie, Tübingen, Germany.
2018 Dr. Tobias Erb
Synthetic Biology
For outstanding achievements in the field of synthetic biology, especially the application of artificial photosynthesis. His work is about creating novel enzymes and pathways for the capture and conversion of greenhouse gas carbon dioxide. He has successfully designed an artificial photosynthesis process that is more efficient than the natural one evolved in plants. Transplanting this process into plants, algae or synthetic cells could lead to crops with improved productivity or novel processes in chemistry that meets human energy and requirements and at the same time reduce CO2 from the atmosphere.
Max-Planck-Institut für terrestrische Mikrobiologie, Marburg, Germany.
Photopharmacology
In honor of pioneering contributions in Photopharmacology and Chemical Optogenetics. Trauner developed novel synthetic photoswitches that can sensitize a wide variety of cellular receptors toward light. His work has potential to open new chemotherapeutical treatment opportunities, including chemical treatment strategies to cure blindness and cancer.
Ludwig-Maximilian-University, Munich, Germany.
Molecular Spectroscopy
In honor of his outstanding contributions in Molecular Spectroscopy and the characterization of highly-electronically excited atoms and molecules by high-resolution spectroscopic and XUV laser technology developments. The work of Prof. Merkt made significant contributions to the understanding of the basic chemical structure, bonding and physical behavior of molecules and ions, and to the investigation of unusual properties in high molecular Rydberg states.
Laboratory for Physical Chemistry, ETH Zürich, Switzerland.
Hansen Family Award for Medical Sciences
Epigenetics
For groundbreaking insights and paradigm shifting discoveries in the area of epigenetics. She and her team contribute significantly to our understanding of the interplay between chromatin structure and gene activity, which is essential for the development of new drugs aimed at treating cancer and other diseases.
European Molecular Biology Laboratory (EMBL), Heidelberg, Germany.
2017 Prof. Dr. Jens Claus Brüning
Diabetes/Obesity
For groundbreaking insights into the physiology of insulin action and the pathophysiology of insulin resistance. His fundamental discoveries about the role of insulin action in the CNS and his research on systemic feeding control signals and obesity-induced deregulation pathways paved the ground for novel treatment options in obesity and type-2-diabetes mellitus.
Max-Planck-Institut für Stoffwechselforschung, Cologne, Germany.
2017 Univ.-Prof. Dr. med Matthias H. Tschöp
Diabetes/Obesity
For paradigm shifting discoveries about gut-brain communication pathways related to hunger signals. His pioneering combination of physiology research with human biology and peptide-based pharmacology has led to break-through discoveries resulting in multiple novel drug candidates with unprecedented potential to stop the worldwide obesity and type-2-diabetes pandemic.
Helmholtz Zentrum, Munich, Germany.
2015 Prof. Dr. Emmanuelle Charpentier
Genome Editing
In honor of her pioneering contributions in harnessing the ancient immune defense system of bacteria – called CRISPR/Cas9 – into a powerful biotech tool which can cut any DNA at any desired position by designing the appropriate guide-RNA. This is an ingenious develop- ment with enormous impact on all life science areas.
Max-Planck-Forschungsstelle für die Wissenschaft der Pathogene, Berlin, Germany.
Early Excellence in Science Awards in Data Science, Biology, Chemistry, Medical Science and formerly Materials (until 2013)
2020 Dr. Marinka Zitnik
Data Science
For her innovative use of machine learning approaches to analyze multidimensional biomedical data.
Harvard University (Harvard Medical School), Boston, MA, USA
2020 Dr. Julia Mahamid
Biology
For her important contributions to the development of in-cell structural studies by electron cryo-tomography.
European Molecular Biology Laboratory (EMBL), Heidelberg, Germany
2020 Dr. Josep Cornella
Chemistry
For his innovative research on the design, invention, and implementation of catalytic strategies for organic synthesis.
Max-Planck-Institut für Kohlenforschung, Mülheim, Germany
Medical Sciences
For development of novel approaches in imaging to study the pathology of Alzheimer´s disease.
Ludwig-Maximilians-University, Munich, Germany
Bayer Thrombosis Research Award for basic and clinical thrombosis research
2021 Dr. Stefano Barco
Epidemiology and risk-adjusted treatment of acute pulmonary embolism
For his research on the epidemiology and management of venous thromboembolism. Dr. Barco´s work provided novel insights on the burden of venous thromboembolism and related mortality on a global scale, contributing to raising awareness on this condition and to the implementation of healthcare measures on a population level. Additionally, his work allowed the development or optimization of risk-adapted therapeutic approaches for acute pulmonary embolism and its sequelae. These results have been translated into clinical practice and serve to guide treatment decisions.
University Medical Center Mainz, Mainz, Germany.
2019 Dr. Changjun Yin
Immunity of atherosclerosis-brain interfaces
For outstanding innovative work for new treatment strategies in atherosclerosis and Alzheimer’s diseases (AD) since both are prototypical unresolvable inflammatory diseases with high risks to develop thrombosis-related diseases and his work has shown that anti-complement C5 therapy can reduce thrombotic events in patients afflicted with complement-triggered diseases. Recent research indicates that oxidized lipids from diseased arteries or A β plaques in the brain trigger both the complement and coagulation cascades. A better understanding of such regulation of complement cascades in chronic inflammation may therefore facilitate the development of novel therapies for patients with thrombotic conditions, i.e. atherosclerosis and AD.
Ludwig-Maximilians-University, Munich, Germany.
2017 Dr. David Seiffge
Clinical work on management of non-vitamin K dependent oral anticoagulants in acute stroke patients
For outstanding clinical research in the area of anticoagulation risk management. David Seiffge’s innovative studies provide pioneer evidence for the clinical relevance of novel oral anticoagulants (NOACs) in stroke patients. Particularly his research on the bleeding risk of acute stroke patients taking NOACs and rapid availability of NOAC plasma levels to assess anticoagulant effect have potential to open new treatment opportunities with improved benefit-risk ratio for stroke patients.
The University Hospital of Basel, Basel, Switzerland.
Platelet receptor research
In recognition of his work in the field of rare congenital blood platelet disorders in patients with Wiskott-Aldrich syndrome. Dr. Bender showed that the severe blood clotting and immune system disorders in patients suffering from this condition are attributable to a deficiency of the cytoskeleton-stabilizing protein profilin-1 in the precursor cells of blood platelets. This could open new opportunities for the early detection and treatment of this severe illness in future.
The University Hospital Würzburg, Würzburg, Germany.
