预测肽对HLA DR分子的亲和力。

K W Marshall, K J Wilson, J Liang, A Woods, D Zaller, J B Rothbard
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引用次数: 0

摘要

建立了一种定量预测肽与HLA DRB1*0401、B1*0101和B1*1501结合的方法,该方法使用了简化肽主链中每种天然氨基酸的相对贡献数据集。该预测假设每个肽侧链的相对作用可以独立处理,并且可以通过分析13个残基肽中心11个位置的20个天然氨基酸中的每一个来测量,这些残基肽先前显示含有与HLA DR蛋白高亲和力结合的最低要求。生成了三个独立的数据库。当对一组13个不相关的肽进行测试时,它们被证明具有预测价值,这些肽已知以广泛的明显亲和力结合DR蛋白。通过分析髓鞘碱性蛋白进一步验证DRB1*0401数据库。合成了所有13个含有第3位疏水氨基酸的氨基酸肽,并对纯化的DRB1*0401进行了结合试验。在每一种情况下,测量的亲和力与测定的实验误差内的预测值相关。最后,预测肽与MHC II类分子结合的能力被证明有助于识别T细胞决定因子。DRB1*0401限制性T细胞杂交瘤对人血清白蛋白的特异性与两个肽相对应,预测并显示出高亲和力结合II类蛋白。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Prediction of peptide affinity to HLA DR molecules.

A method to quantitatively predict peptide binding to HLA DRB1*0401, B1*0101, and B1*1501 has been developed using a dataset of the relative contributions of each of the naturally occurring amino acids in the context of a simplified peptide backbone. The prediction assumed that the relative role of each of the peptide sidechains could be treated independently and could be measured by assaying each of the twenty naturally occurring amino acids at the central eleven positions of a 13 residue peptide previously shown to contain the minimal requirements for high affinity binding to HLA DR proteins. Three separate databases were generated. They were shown to have predictive value when tested on a set of 13 unrelated peptides known to bind the DR proteins with a wide range of apparent affinity. The DRB1*0401 database was tested further by analyzing myelin basic protein. All 13 amino acid peptides containing a hydrophobic amino acid at the third position were synthesized and assayed for binding purified DRB1*0401. In every case, the measured affinity correlated with the predictive values within the experimental error of the assays. Finally, the ability to predict peptide binding to MHC class II molecules was shown to help in identifying T cell determinants. The specificity of DRB1*0401 restricted T cell hybridomas against human serum albumin corresponded to two peptides, predicted, and shown to bind the class II protein with high affinity.

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