| Name | Organization | Research Summary | |
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| Ambroggio, Xavier | Rosetta Design Group | Macromolecular modeling for the advancement and understanding of human health and disease. | ViewMap |
| André, Ingemar | Lund University | Design of protein assembly formation and conformational change | ViewMap |
| Azoitei, Mihai | Duke University | Research in our group is focused on two synergistic areas that are critical for the development of vaccines against highly infectious pathogens: 1) rational immunogen design; and 2) determining the immunogen properties that lead to B cell activation. | ViewMap |
| Bahl, Christopher | Harvard University | de novo design of miniprotein therapeutics | ViewMap |
| Baker, David | University of Washington | We develop protein design software and use it to create molecules that solve modern challenges in medicine, technology and sustainability. | ViewMap |
| Barth, Patrick | Ecole Polytechnique Federale de Lausanne (EPFL) | we develop and apply computational/experimental approaches for designing proteins and cells with novel functionalities | ViewMap |
| Bhardwaj, Gaurav | University of Washington | Computational peptide design for targeted therapeutics | ViewMap |
| Bjelic, Sinisa | Linnaeus University | Intersted in functionalizing proteins, understanding biology, and having fun! | ViewMap |
| Bonneau, Rich | New York University | Needs update | ViewMap |
| Boyden, Ed | Massachusetts Institute of Technology | Protein engineering | ViewMap |
| Bradley, Philip | Fred Hutchinson Cancer Research Center | Protein fold design and protein interaction specificity, especially in the immune system | ViewMap |
| Brown, Benjamin | Vanderbilt University | We combine precision medicine computational structural biology with computer-aided small molecule drug discovery. | ViewMap |
| Brunette, TJ | Align Bio | My research focuses on developing protein design methods for generating large datasets and designing experiments that utilize cloud-based labs. | ViewMap |
| Bystroff, Christopher | Rensselaer Polytechnic Institute | Vaccine design, biosensor design | ViewMap |
| Charpentier, Emmanuelle | Max Planck Institute for Science of Pathogens | Needs update | ViewMap |
| Chen, Zibo | Westlake University | The Chen Lab combines mammalian synthetic biology with de novo protein design to write biological programs at the molecular, cellular, and tissue levels. | ViewMap |
| Cong, Qian | University of Texas Southwestern | We mine large-scale data for biological discoveries | ViewMap |
| Cooper, Seth | Northeastern University | Foldit | ViewMap |
| Corn, Jacob | ETH Zurich | Human genome editing and organelle removal | ViewMap |
| Correia, Bruno | Ecole Polytechnique Federale de Lausanne (EPFL) | Computational design of functional proteins with applications in immunoengineering and synthetic biology. | ViewMap |
| Das, Rhiju | Stanford University | Modeling and design of complex structured RNA | ViewMap |
| DeGrado, Bill | University of California San Francisco | De novo protein design. Drug design. Membrane protein design. | ViewMap |
| DiMaio, Frank | University of Washington | Protein structure prediction | ViewMap |
| Drew, Kevin | University of Illinois Chicago | Macromolecular Identification, Structure, & Function | ViewMap |
| Dunbrack, Roland | Fox Chase Cancer Center | Structural bioinformatics and structure prediction of proteins and protein complexes relevant to cancer biology and therapeutics | ViewMap |
| Feldman, David | BioInnovation Institute | Developing minibinders to integral membrane proteins | ViewMap |
| Fischer, Eric | Dana-Farber Cancer Institute | We cultivate a multi-disciplinary and highly collaborative approach to science to tackle fundamental questions in biology and pharmacology. | ViewMap |
| Fleishman, Sarel | Weizmann Institute of Science | Developing methods for enzyme, antibody, and membrane protein design | ViewMap |
| Furman, Ora | Hebrew University | Characterization, Modeling and Design of interactions mediated by peptides and short motifs. We develop and apply approaches to study interactions of biological importance. | ViewMap |
| Glasgow, Anum | Columbia University | We aim to understand the molecular mechanisms underlying conformational changes in proteins, and we use what we learn to engineer new therapeutics. | ViewMap |
| Gonen, Shane | University of California, Irvine | Structural Biology, CryoEM, Protein Design | ViewMap |
| Gray, Jeffrey | Johns Hopkins University | Protein docking, antibody engineering, glycoproteins, membrane proteins, deep learning | ViewMap |
| Grigoryan, Gevorg | Dartmouth College | Needs update | ViewMap |
| Gront, Dominik | University of Warsaw | Coarse grained and and multiscale modelling of protein dynamics | ViewMap |
| Gulsevin, Alican | Butler University | Development and application of methods for the modeling of membrane proteins important for human health. | ViewMap |
| Harrison, Joe | University of the Pacific | We model ubiquitin interactions and design protein based inhibitors of ubiquitin pathways | ViewMap |
| Haussler, David | University of California, Santa Cruz | Needs update | ViewMap |
| Höcker, Birte | University of Bayreuth | Computational and experimental protein design | ViewMap |
| Horowitz, Scott | University of Denver | Nucleic Acids effect on Proteostasis and Foldit | ViewMap |
| Hosseinzadeh, Parisa | University of Oregon | Protein/peptide design | ViewMap |
| Huang, Possu | Stanford University | Protein design method development as well as developing novel cancer immunotherapy | ViewMap |
| Huber, Thomas | Australian National University | protein design for genetic code expansion, paramagnetic NMR | ViewMap |
| Jha, Ramesh | Los Alamos National Laboratory | Protein engineering applied to synthetic biology | ViewMap |
| Jiang, Lin | University of California, Los Angeles | computational structural biology and drug design for Alzheimer's, Parkinson's and other degenerative disorders | ViewMap |
| Johnson, David | University of Kansas | Computational chemical biology | ViewMap |
| Karanicolas, John | Fox Chase Cancer Center | Harnessing the power of computational chemical biology to address non-traditional drug targets | ViewMap |
| Kellogg, Elizabeth | Cornell University | Cryo-EM, computational modeling and protein design | ViewMap |
| Khare, Sagar | Rutgers University | We work on the design of novel enzymes and proteins for applications in therapeutics and biocatalysis | ViewMap |
| Khatib, Firas | University of Massachusetts Dartmouth | Our group is interested in combining the power of humans and computers to tackle other difficult scientific problems. | ViewMap |
| Khmelinskaia, Alena | Ludwig Maximilian University of Munich | Design of protein-based biohybrid materials to (i) study complex biological processes and (ii) tackle biotechnological bottle necks. | ViewMap |