使用噬菌体展示肽序列自动检测构象表位

Automated detection of conformational epitopes using phage display Peptide sequences.

作者信息

Negi Surendra S, Braun Werner

机构信息

Sealy Center for Structural Biology and Molecular Biophysics, Department of Biochemistry and Molecular Biology, University of Texas Medical Branch, Galveston TX, 77555-0857, USA. Email:

出版信息

Bioinform Biol Insights. 2009 Jul 1;3:71-81. doi: 10.4137/bbi.s2745.

DOI:10.4137/bbi.s2745

PMID:20140073

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2808184/

Abstract

BACKGROUND

Precise determination of conformational epitopes of neutralizing antibodies represents a key step in the rational design of novel vaccines. A powerful experimental method to gain insights on the physical chemical nature of conformational epitopes is the selection of linear peptides that bind with high affinities to a monoclonal antibody of interest by phage display technology. However, the structural characterization of conformational epitopes from these mimotopes is not straightforward, and in the past the interpretation of peptide sequences from phage display experiments focused on linear sequence analysis to find a consensus sequence or common sequence motifs.

RESULTS

We present a fully automated search method, EpiSearch that predicts the possible location of conformational epitopes on the surface of an antigen. The algorithm uses peptide sequences from phage display experiments as input, and ranks all surface exposed patches according to the frequency distribution of similar residues in the peptides and in the patch. We have tested the performance of the EpiSearch algorithm for six experimental data sets of phage display experiments, the human epidermal growth factor receptor-2 (HER-2/neu), the antibody mAb Bo2C11 targeting the C(2) domain of FVIII, antibodies mAb 17b and mAb b12 of the HIV envelope protein gp120, mAb 13b5 targeting HIV-1 capsid protein and 80R of the SARS coronavirus spike protein. In all these examples the conformational epitopes as determined by the X-ray crystal structures of the antibody-antigen complexes, were found within the highest scoring patches of EpiSearch, covering in most cases more than 50% residues of experimental observed conformational epitopes. Input options of the program include mapping of a single peptide or a set of peptides on the antigen structure, and the results of the calculation can be visualized on our interactive web server.

AVAILABILITY

Users can access the EpiSearch from our web server http://curie.utmb.edu/episearch.html.

摘要

背景

精确确定中和抗体的构象表位是新型疫苗合理设计的关键步骤。通过噬菌体展示技术选择与感兴趣的单克隆抗体具有高亲和力结合的线性肽，是深入了解构象表位物理化学性质的一种强大实验方法。然而，从这些模拟表位确定构象表位的结构特征并非易事，过去噬菌体展示实验中肽序列的解释主要集中在线性序列分析以寻找共有序列或常见序列基序。

结果

我们提出了一种全自动搜索方法EpiSearch，可预测抗原表面构象表位的可能位置。该算法将噬菌体展示实验的肽序列用作输入，并根据肽和表位中相似残基的频率分布对所有表面暴露斑块进行排名。我们针对噬菌体展示实验的六个数据集测试了EpiSearch算法的性能，这些数据集包括人表皮生长因子受体2（HER-2/neu）、靶向FVIII C(2)结构域的抗体mAb Bo2C11、HIV包膜蛋白gp120的抗体mAb 17b和mAb b12、靶向HIV-1衣壳蛋白的mAb 13b5以及SARS冠状病毒刺突蛋白的80R。在所有这些实例中，由抗体-抗原复合物的X射线晶体结构确定的构象表位都在EpiSearch得分最高的斑块内被发现，在大多数情况下覆盖了实验观察到的构象表位超过50%的残基。该程序的输入选项包括将单个肽或一组肽映射到抗原结构上，计算结果可在我们的交互式网络服务器上可视化。

可用性

用户可通过我们的网络服务器http://curie.utmb.edu/episearch.html访问EpiSearch。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5cc/2808184/080feb89dd67/bbi-2009-071f1.jpg

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使用噬菌体展示肽序列自动检测构象表位

Automated detection of conformational epitopes using phage display Peptide sequences.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

AVAILABILITY

背景

结果

可用性

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