Jens Meiler
Distinguished Research Professor
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Dr. Meiler will be accepting graduate students for Fall 2025. |
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Research in our laboratory seeks to fuse computational and experimental efforts to investigate proteins, the fundamental molecules of biology, and their interactions with small molecule substrates, therapeutics, or probes. We develop computational methods with three major ambitions in mind: 1) to enable protein structure elucidation of membrane proteins – the primary target of most therapeutics – and large macromolecular complexes such as viruses; 2) design proteins with novel structure and/or function to explore novel approaches to protein therapeutics and deepen our understanding of protein folding pathways, and 3) understand the relation between chemical structure and biological activity quantitatively in order to design more efficient and more specific drugs. Crucial for our success is the experimental validation of our computational approaches which we pursue in our laboratory or in collaboration with other scientists. For a complete list of research projects please visit http://www.meilerlab.org/. |
| Research in our laboratory seeks to fuse computational and experimental efforts to investigate proteins, the fundamental molecules of biology, and their interactions with small molecule substrates, therapeutics, or probes. We develop computational methods with three major ambitions in mind: 1) to enable protein structure elucidation of membrane proteins – the primary target of most therapeutics – and large macromolecular complexes such as viruses; 2) design proteins with novel structure and/or function to explore novel approaches to protein therapeutics and deepen our understanding of protein folding pathways, and 3) understand the relation between chemical structure and biological activity quantitatively in order to design more efficient and more specific drugs. Crucial for our success is the experimental validation of our computational approaches which we pursue in our laboratory or in collaboration with other scientists. For a complete list of research projects please visit http://www.meilerlab.org/. |
Specializations
| Computational Structural Biochemistry Chemical Biology Center for Structural Biology Personalized Structural Biology Physical Chemistry Biophysical Chemistry Biochemistry VICB |
Representative Publications
ORCID 0000-0001-8945-193X
https://scholar.google.com/citations?user=aNBKAbEAAAAJ
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a. Z. Du, B. P. Brown, …, J. Meiler and C. M. Lovly; "Structure-function analysis of oncogenic EGFR Kinase Domain Duplication reveals insights into activation and a potential approach for therapeutic targeting"; Nat Commun; 2021; Vol. 12 (1): p. 1382. b. S. J. Zost, P. Gilchuk, …, J. Meiler, R. H. Carnahan and J. E. Crowe, Jr.; "Potently neutralizing and protective human antibodies against SARS-CoV-2"; Nature; 2020; Vol. 584 (7821): p. 443-449. c. Z. Yang, S. Han, M. Keller, …, J. Meiler, A. G. Beck-Sickinger, A. Buschauer and B. Wu; "Structural basis of ligand binding modes at the neuropeptide Y Y1 receptor"; Nature; 2018; Vol. 556 (7702): p. 520-524. d. D. Del Alamo, L. DeSousa, R. M. Nair, S. Rahman, J. Meiler and H. S. Mchaourab; "Integrated AlphaFold2 and DEER investigation of the conformational dynamics of a pH-dependent APC antiporter"; Proc Natl Acad Sci U S A; 2022; Vol. 119 (34): p. e2206129119. |