Quantum chemical calculations predict biological function: the case of T cell receptor interaction with a peptide/MHC class I

Antipas Georgios S. E.; Germenis Anastasios E.

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Quantum chemical calculations predict biological function: the case of T cell receptor interaction with a peptide/MHC class I

机译：量子化学计算可预测生物学功能：T细胞受体与I类肽/ MHC相互作用的情况

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A combination of atomic correlation statistics and quantum chemical calculations are shown to predict biological function. In the present study, various antigenic peptide-Major Histocompatibility Complex (pMHC) ligands with near-identical stereochemistries, in complexation with the same T cell receptor (TCR), were found to consistently induce distinctly different quantum chemical behavior, directly dependent on the peptide’s electron spin density and intrinsically expressed by the protonation state of the peptide’s N-terminus. Furthermore, the cumulative coordination difference of any variant in respect to the native peptide was found to accurately reflect peptide biological function and immerges as the physical observable which is directly related to the immunological end-effect of pMHC-TCR interaction.

机译：结合了原子相关统计和量子化学计算可以预测生物学功能。在本研究中，发现具有相同的立体化学的各种抗原肽-主要组织相容性复合物（pMHC）配体与相同的T细胞受体（TCR）络合，始终诱导明显不同的量子化学行为，直接依赖于肽的电子自旋密度，本质上由肽的N末端的质子化状态表示。此外，发现任何变体相对于天然肽的累积配位差异均能准确反映肽的生物学功能，并以物理可观察的方式浸入，这与pMHC-TCR相互作用的免疫学最终效应直接相关。

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《Frontiers in Chemistry》 |2015年第3期|共页
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Antipas Georgios S. E.; Germenis Anastasios E.;
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1. TOPOLOGY OF T CELL RECEPTOR-PEPTIDE CLASS I MHC INTERACTION DEFINED BY CHARGE REVERSAL COMPLEMENTATION AND FUNCTIONAL ANALYSIS [J] . Chang HC., Spoerl R., Witte T., Journal of Molecular Biology . 1997,第2期

机译：通过电荷逆向互补和功能分析确定T细胞受体肽I类MHC相互作用的拓扑
2. Predicting interactions between T cell receptors and MHC-peptide complexes [J] . Kirsten Roomp, Francisco S. Domingues Molecular Immunology . 2011,第4期

机译：预测T细胞受体与MHC肽复合物之间的相互作用
3. A diverse set of oligomeric class II MHC-peptide complexes for probing T-cell receptor interactions [J] . Cochran JR., Stern LJ. Chemistry & biology . 2000,第9期

机译：多种多样的低聚II类MHC肽复合物，用于探测T细胞受体相互作用
4. Predicting Class-II MHC Binding Peptide Using Global Representation of Peptides [C] . Niu Yanqing 2011 International Conference on Intelligent Computation and Bio-Medical Instrumentation . 2011

机译：使用肽的整体表示预测II类MHC结合肽
5. The MHC-Ib Molecule HLA-F Presents Peptides and Regulates Immunity Through Interactions with NK-Cell Receptors. [D] . Dulberger, Charles Lefco. 2017

机译：MHC-Ib分子HLA-F通过与NK细胞受体相互作用来提呈肽并调节免疫力。
6. Quantum chemical calculations predict biological function: the case of T cell receptor interaction with a peptide/MHC class I [O] . Georgios S. E. Antipas, Anastasios E. Germenis 2015

机译：量子化学计算可预测生物学功能：T细胞受体与I类肽/ MHC相互作用的情况
7. Quantum chemical calculations predict biological function: The case of T cell receptor interaction with a peptide/MHC class I [O] . Georgios S.E. eAntipas, Anastasios E Germenis 2015

机译：量子化学计算预测生物功能：T细胞受体与肽/ mHC I类相互作用的情况

Quantum chemical calculations predict biological function: the case of T cell receptor interaction with a peptide/MHC class I

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