Frontiers Multiple-Allele MHC Class II Epitope Engineering by a Molecular Dynamics-Based Evolution Protocol
Por um escritor misterioso
Descrição
A transfer-learning approach to predict antigen immunogenicity and T-cell receptor specificity
Frontiers Structural Comparison Between MHC Classes I and II; in Evolution, a Class-II-Like Molecule Probably Came First
MHCflurry 2.0: Improved Pan-Allele Prediction of MHC Class I-Presented Peptides by Incorporating Antigen Processing - ScienceDirect
A few good peptides: MHC class I-based cancer immunosurveillance and immunoevasion
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Rapid, Precise, and Reproducible Prediction of Peptide–MHC Binding Affinities from Molecular Dynamics That Correlate Well with Experiment
T-cell epitope vaccine design by immunoinformatics
MHC class II complexes sample intermediate states along the peptide exchange pathway
Vaccines, Free Full-Text
A transfer-learning approach to predict antigen immunogenicity and T-cell receptor specificity
Improved Prediction of MHC II Antigen Presentation through Integration and Motif Deconvolution of Mass Spectrometry MHC Eluted Ligand Data
High-resolution profiling of MHC II peptide presentation capacity reveals SARS-CoV-2 CD4 T cell targets and mechanisms of immune escape
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