ThermoPCD: a database of molecular dynamics trajectories of antibody-antigen complexes at physiologic and fever-range temperatures.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Puneet K Singh, Razvan C Stan
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Abstract

Progression of various cancers and autoimmune diseases is associated with changes in systemic or local tissue temperatures, which may impact current therapies. The role of fever and acute inflammation-range temperatures on the stability and activity of antibodies relevant for cancers and autoimmunity is unknown. To produce molecular dynamics (MD) trajectories of immune complexes at relevant temperatures, we used the Research Collaboratory for Structural Bioinformatics (RCSB) database to identify 50 antibody:antigen complexes of interest, in addition to single antibodies and antigens, and deployed Groningen Machine for Chemical Simulations (GROMACS) to prepare and run the structures at different temperatures for 100-500 ns, in single or multiple random seeds. MD trajectories are freely available. Processed data include Protein Data Bank outputs for all files obtained every 50 ns, and free binding energy calculations for some of the immune complexes. Protocols for using the data are also available. Individual datasets contain unique DOIs. We created a web interface, ThermoPCD, as a platform to explore the data. The outputs of ThermoPCD allow the users to relate thermally-dependent changes in epitopes:paratopes interfaces to their free binding energies, or against own experimentally derived binding affinities. ThermoPCD is a free to use database of immune complexes' trajectories at different temperatures that does not require registration and allows for all the data to be available for download. Database URL: https://sites.google.com/view/thermopcd/home.

ThermoPCD:生理和发热范围温度下抗体-抗原复合物分子动力学轨迹数据库。
各种癌症和自身免疫性疾病的进展与全身或局部组织温度的变化有关,这可能会影响目前的疗法。发热和急性炎症范围内的温度对癌症和自身免疫相关抗体的稳定性和活性的作用尚不清楚。为了制作相关温度下免疫复合物的分子动力学(MD)轨迹,除了单个抗体和抗原外,我们还利用结构生物信息学研究合作实验室(RCSB)数据库确定了 50 种感兴趣的抗体:抗原复合物,并部署了格罗宁根化学模拟机器(GROMACS),以单个或多个随机种子在不同温度下制备和运行了 100-500 ns 的结构。MD 轨迹可免费获取。处理后的数据包括每 50 ns 获得的所有文件的蛋白质数据库输出结果,以及一些免疫复合物的自由结合能计算结果。此外,还提供了数据使用规程。单个数据集包含唯一的 DOI。我们创建了一个网络接口 ThermoPCD,作为探索数据的平台。通过 ThermoPCD 的输出结果,用户可以将表位:旁位界面的热依赖性变化与其自由结合能或实验得出的结合亲和力联系起来。ThermoPCD 是免疫复合物在不同温度下轨迹的免费数据库,无需注册,所有数据均可下载。数据库网址:https://sites.google.com/view/thermopcd/home。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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