Paratope states in solution improve structure prediction and docking
2021; Elsevier BV; Volume: 30; Issue: 3 Linguagem: Inglês
10.1016/j.str.2021.11.001
ISSN1878-4186
AutoresMonica L. Fernández‐Quintero, Anna Vangone, Johannes R. Loeffler, Clarissa A. Seidler, Guy Georges, Klaus R. Liedl,
Tópico(s)RNA and protein synthesis mechanisms
ResumoStructure-based antibody design and accurate predictions of antibody-antigen interactions remain major challenges in computational biology. By using molecular dynamics simulations, we show that a single static X-ray structure is not sufficient to identify determinants of antibody-antigen recognition. Here, we investigate antibodies that undergo substantial conformational changes upon antigen binding and have been classified as difficult cases in an extensive benchmark for antibody-antigen docking. We present thermodynamics and transition kinetics of these conformational rearrangements and show that paratope states can be used to improve antibody-antigen docking. By using the unbound antibody X-ray structure as starting structure for molecular dynamics simulations, we retain a binding competent conformation substantially different to the unbound antibody X-ray structure. We also observe that the kinetically dominant antibody paratope conformations are chosen by the bound antigen conformation with the highest probability. Thus, we show that paratope states in solution can improve antibody-antigen docking and structure prediction.
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