Chodera Lab // MSKCC

Affiliations. Address. Contacts. Motto. Etc.

prof_pic.jpg
Zuckerman Research Center
417 East 68th Street
New York, NY 10065

Office: Z-690

646-888-3400

Postal Address:

John Chodera
Memorial Sloan Kettering Cancer Center
1275 York Ave., ZRC 6-south
New York, NY 10065

Projects

The Chodera lab uses computation and experiments to develop quantitative, multiscale models of the effects of small molecules on biomolecular macromolecules and cellular pathways. To do this, the group utilizes physical models and rigorous statistical mechanics, with the overall goals of engineering novel therapeutics and tools for chemical biology, as well as understanding the physical driving forces behind ligand recognition the evolution of resistance mutations.

The Chodera group makes use of advanced algorithms for molecular dynamics simulations on graphics processing units (GPUs) and distributed computing platforms, in addition to robot-driven moderate and high-throughput experiments focusing on characterizing biophysical interactions between proteins and small molecules.

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news

Jan 15, 2016 A simple inline announcement with Markdown emoji! :sparkles: :smile:
Nov 07, 2015 A long announcement with details
Oct 22, 2015 A simple inline announcement.

latest posts

May 16, 2025 ML Foundry AI for Science Symposium
Dec 06, 2024 ELLIS ML4Molecules Workshop in Berlin
Oct 30, 2024 Postdoctoral Fellow Maria A. Castellanos wins poster prize at Computational Medicinal Chemistry School for AlphaFold-based prediction of antiviral spectrum

Recent Publications

  1. A computational community blind challenge on pan-coronavirus drug discovery data
    MacDermott-Opeskin H , Scheen J , Wognum C , Horton JT , West D , Payne AM , Castellanos MA , Colby S , Griffen E , Cousins D , Kaminow B , Mey A , Chodera JD , and 112 more authors
    2026
    Github: https://github.com/asapdiscovery/asap-blind-challenge-paper
    URL
  2. Trastuzumab Deruxtecan Resistance via Loss of HER2 Expression and Binding
    Chen W , Gupta A , Mai N , Nag S , Lau JS , Singh S , Chodera JD , Liu B , Stanchina E , Pareja F , and 7 more authors
    Cancer Discovery, 2026
    DOI
  3. Developing and benchmarking Sage 2.3.0 with the AshGC neural network charge model
    Wang L , Alibay I , Boothroyd S , Cavender CE , Horton JT , McIsaac AR , Mitchell JA , Thompson MW , Wagner JR , Westbrook BR , Chodera JD , and 3 more authors
    2025
    GitHub: https://github.com/openforcefield/ashgc-v1.0-fit
    URL
  4. Large-scale collaborative assessment of binding free energy calculations for drug discovery using OpenFE
    Baumann HM , Horton JT , Henry MM , Travitz A , Ries B , Gowers RJ , Swenson DWH , Pulido I , Rufa D , Dotson DL , Scheen J , Stern CD , Zhang I , and 29 more authors
    2025
    GitHub: https://github.com/OpenFreeEnergy/IndustryBenchmarks2024
    URL
  5. Blind challenges let us see the path forward for predictive models
    Chodera JD , Walters WP , Kosuri S , Fraser JS
    2025
    URL
  6. OpenADMET: Embracing the Avoid-Ome to Transform Drug Discovery
    Fraser JS , Edgar S , Handly LN , Kosuri S , Chodera JD , Murcko M , Walters WP
    2025
    URL
  7. The journey of data: Lessons learned in modeling kinase affinity, selectivity, and resistance [Article v1.0]
    Castro RL , Rodríguez-Guerra J , Schaller D , Kimber TB , Taylor C , White JB , Backenköhler M , Groß J , Payne AM , Kaminow B , Pulido I , Singh S , Chodera JD , and 3 more authors
    Living Journal of Computational Molecular Science, 2025
    GitHub: https://github.com/openkinome/kinoml-techpaper-LiveCoMS
    DOI
  8. payne2025how.jpg
    How many crystal structures do you need to trust your docking results?
    Payne AM , Kaminow B , MacDermott-Opeskin H , Pulido I , Scheen J , Castellanos MA , Fearon D , Chodera JD , Singh S
    2025
    GitHub: https://github.com/choderalab/drugforge
    DOI Bib
  9. Redefining druggable targets with artificial intelligence
    Akinsanya K , AlQuraishi M , Boija A , Chodera J , Cichońska A , Levine MV , Moult J , Stuart L , Tourassi G , Zou J , and 2 more authors
    Nature Biotechnology, 2025
    DOI
  10. A structure-based computational pipeline for broad-spectrum antiviral discovery
    Castellanos MA , Payne AM , Scheen J , MacDermott-Opeskin H , Pulido I , Balcomb BH , Griffen EJ , Fearon D , Barr H , Lahav N , Chodera JD , and 4 more authors
    2025
    GitHub: https://github.com/choderalab/drugforge
    DOI
  11. Open-science discovery of DNDI-6510, a compound that addresses genotoxic and metabolic liabilities of the COVID Moonshot SARS-CoV-2 Mpro lead inhibitor
    Griffen EJ , Fearon D , McGovern BL , Koekemoer L , Balcomb BH , Szommer T , Fate G , Robinson RP , Lefker BA , Duberstein S , Chodera J , and 24 more authors
    2025
    DOI
  12. Neural network potentials for enabling advanced samll-molecule drug discovery and generative design
    Barnett S , Chodera J
    GEN Biotechnology, 2024
    DOI
  13. Prospective evaluation of structure-based simulations reveal their ability to predict the impact of kinase mutations on inhibitor binding
    Singh S , Gapsys V , Aldeghi M , Schaller D , Rangwala AM , White JB , Bluck JP , Scheen J , Glass WG , Guo J , Chodera JD , and 5 more authors
    The Journal of Physical Chemistry B, 2025
    GitHub: https://github.com/openkinome/study-abl-resistance
    DOI
  14. The Need for Continuing Blinded Pose- and Activity Prediction Benchmarks
    Kramer C , Chodera J , Damm-Ganamet KL , Gilson MK , Günther J , Lessel U , Lewis RA , Mobley D , Nittinger E , Pecina A , and 2 more authors
    The Journal of Chemical Information and Modeling, 2025
    DOI
  15. Fine-tuning molecular mechanics force fields to experimental free energy measurements
    Rufa D , Fass J , Chodera JD
    2025
    GitHub: https://github.com/choderalab/timemachine_hydration_paper
    DOI
  16. EspalomaCharge: Machine learning-enabled ultrafast partial charge assignment
    Wang Y , Pulido I , Takaba K , Kaminow B , Scheen J , Wang L , Chodera JD
    Journal of Chemical Physics, 2024
    GitHub: https://github.com/choderalab/espaloma_charge
    DOI
  17. DrugGym: A testbed for the economics of autonomous drug discovery
    Retchin M , Wang Y , Takaba K , Chodera JD
    2024
    GitHub: https://github.com/choderalab/drug-gym/
    DOI
  18. Enhancing protein–ligand binding affinity predictions using neural network potentials
    Zariquiey FS , Galvelis R , Gallicchio E , Chodera JD , Markland TE , Fabritiis G
    Journal of Chemical Information and Modeling, 2024
    GitHub: https://github.com/compsciencelab/ATM_benchmark/tree/main/ATM_With_NNPs
    DOI
  19. Benchmarking Cross-Docking Strategies in Kinase Drug Discovery
    Schaller DA , Christ CD , Chodera JD , Volkamer A
    Journal of Chemical Information and Modeling, 2024
    GitHub: https://github.com/openkinome/kinase-docking-benchmark
    DOI
  20. Nutmeg and SPICE: Models and data for biomolecular machine learning
    Eastman P , Pritchard BP , Chodera JD , Markland TE
    Journal of Chemical Theory and Computation, 2024
    GitHub: https://github.com/openmm/spice-dataset
    DOI
  21. Machine-learned molecular mechanics force fields from large-scale quantum chemical data
    Takaba K , Friedman AJ , Cavender CE , Behara PK , Pulido I , Henry MM , MacDermott-Opeskin H , Iacovella CR , Nagle AM , Payne AM , Chodera JD , Wang Y , and 2 more authors
    Chemical Science, 2024
    GitHub: https://github.com/choderalab/espaloma-0.3.0-manuscript
    DOI