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| ProtIG is an NIH Special Interest Group (SIG) that organizes seminars and workshops in relevant areas of proteomics, including talks on separation and protein identification methods, determination of post-translational modifications, protein-protein interactions, and bioinformatics and data management. A monthly seminar series is usually held at 12 pm on the Second Thursday of each month (always check the Mtgs/Seminars button on this page for these and other PROTIG announced meetings). To receive email announcements of ProtIG events, join the listserv (Join the SIG button on this page) |
| October ProtIG Seminar |
| This seminar will be recheduled in case of a lapse in appropriations |
| Thursday, October 9th, 2025 |
| 11:00 am - 12:00 pm ET |
| NIH Building 50 |
| Room 1227/1233 |
| Daniel Deredge, Ph.D. |
| Assistant Proffesor Department of Pharmaceutical Sciences University of Maryland School of Pharmacy |
| "Integrating Hydrogen-Deuterium exchange mass spectrometry with computational approaches to model native state ensembles and protein interactions" |
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An accurate understanding of the structure and dynamics of proteins is of paramount importance for understanding proper function, how disruptions lead to dysfunction, or to develop therapeutics. Hydrogen-deuterium exchange mass spectrometry (HDX-MS) is a structural proteomics approach which is unique in its ability to simultaneously provide localized and time-resolved information on the structural dynamics of backbone amide groups. As such, HDX-MS has been successfully applied to probe the native state ensembles of proteins, macromolecular interactions, protein-small molecule interactions or protein folding and unfolding. However, the structural information reported by HDX-MS remains largely limited to peptide-level resolution. To address this, efforts in the Deredge lab have focused on leveraging HDX-MS with computational modeling and molecular dynamics simulations to bridge the gap between experimental observables and atomic-level structural detail. HDX ensemble reweighting (HDXer) is one such approach which uses a post hoc maximum entropy approach to adjust the weights of individual frames of a structural ensemble to conform to HDX-MS data. We have demonstrated the applicability of HDXer within various perspectives. For instance, we used HDXer to model the native ensemble of the putative therapeutic target PhuS, the cytoplasmic heme binding protein from P.aeruginosa, revealing cryptic drug binding sites. Additionally, we demonstrated the specific applicability of HDXer in leveraging lower resolution HDX-MS data to accurately model protein-small molecule interactions. Finally, we used HDXer to model the complex of Dengue virus Non-Structural 5 protein bound to the Stem Loop A (SLA) motif at the 5' end of the viral genome, a model we subsequently corroborated by cryoEM. In recent efforts to extend beyond post hoc ensemble reweighting, we are currently developing 1/ an HDX-MS-steered adaptive sampling workflow to guide enhanced sampling MD simulations, and 2/ a hybrid physics-based and machine-learning based models to model protein-ligand interaction from HDX-MS data.
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This seminar will be videocast on
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Seminars will be webcast online and available on the
Proteomics Interest Group website http://proteome.nih.gov as an archived presentation unless otherwise noted. |
This site was updated on September 30th, 2025. Please contact Renee Olano at olanol(at)mail.nih.gov with questions or suggestions.