Improved Antibody‐Specific Epitope Prediction Using AlphaFold and AbAdapt **

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Abstract: Antibodies recognize their cognate antigens with high affinity and specificity, but the prediction of binding sites on the antigen (epitope) corresponding to a specific antibody remains a challenging problem. To address this problem, we developed AbAdapt, a pipeline that integrates antibody and antigen structural modeling with rigid docking in order to derive antibody‐antigen specific features for epitope prediction. In this study, we systematically assessed the impact of integrating the state‐of‐the‐art protein modeling method AlphaFold with the AbAdapt pipeline. By incorporating more accurate antibody models, we observed improvement in docking, paratope prediction, and prediction of antibody‐specific epitopes. We further applied AbAdapt‐AF in an anti‐receptor binding domain (RBD) antibody complex benchmark and found AbAdapt‐AF outperformed three alternative docking methods. Also, AbAdapt‐AF demonstrated higher epitope prediction accuracy than other tested epitope prediction tools in the anti‐RBD antibody complex benchmark. We anticipate that AbAdapt‐AF will facilitate prediction of antigen‐antibody interactions in a wide range of applications.

Location: Deutsche Nationalbibliothek Frankfurt am Main

Extent: Online-Ressource

Language: Englisch

Bibliographic citation: Improved Antibody‐Specific Epitope Prediction Using AlphaFold and AbAdapt ** ; day:11 ; month:08 ; year:2022 ; extent:1
ChemBioChem ; (11.08.2022) (gesamt 1)

Creator: Xu, Zichang
Davila, Ana
Wilamowski, Jan
Teraguchi, Shunsuke
Standley, Daron M.

DOI: 10.1002/cbic.202200303

URN: urn:nbn:de:101:1-2022081215022721502060

Rights: Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.

Last update: 15.08.2025, 7:33 AM CEST

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Xu, Zichang
Davila, Ana
Wilamowski, Jan
Teraguchi, Shunsuke
Standley, Daron M.

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Improved Antibody‐Specific Epitope Prediction Using AlphaFold and AbAdapt **

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Other Objects (12)

Improved AlphaFold modeling with implicit experimental information

String kernels for protein sequence comparisons: improved fold recognition

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A human antibody epitope map of the malaria vaccine antigen Pfs25

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P05-09. 4e10 epitope-scaffolds mimic the antibody-bound epitope conformation and block neutralization by sera from rare HIV+ individuals

Construction and characterization of neutralizing antibody fragments for efficient access to V3 epitope

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The expanded inframammary fold triangle: Improved results in large volume breast reductions

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Improved AlphaFold modeling with implicit experimental information

String kernels for protein sequence comparisons: improved fold recognition

Design of epitope-specific probes for sera analysis and antibody isolation

A human antibody epitope map of the malaria vaccine antigen Pfs25

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Adapt or Die?

P05-09. 4e10 epitope-scaffolds mimic the antibody-bound epitope conformation and block neutralization by sera from rare HIV+ individuals

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The expanded inframammary fold triangle: Improved results in large volume breast reductions

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Improved AlphaFold modeling with implicit experimental information

String kernels for protein sequence comparisons: improved fold recognition

Design of epitope-specific probes for sera analysis and antibody isolation

A human antibody epitope map of the malaria vaccine antigen Pfs25

Binding epitope for recognition of human TRPM4 channel by monoclonal antibody M4M

Adapt or Die?

P05-09. 4e10 epitope-scaffolds mimic the antibody-bound epitope conformation and block neutralization by sera from rare HIV+ individuals

Construction and characterization of neutralizing antibody fragments for efficient access to V3 epitope

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