通过质谱联用和计算建模验证 NRG1 Ig 样结构域的测定。

Validated determination of NRG1 Ig-like domain structure by mass spectrometry coupled with computational modeling.

机构信息

Department of BioMolecular Sciences, University of Mississippi, University, MS, USA.

Analytical Operations Department, Gilead Sciences, Foster City, CA, USA.

出版信息

Commun Biol. 2022 May 12;5(1):452. doi: 10.1038/s42003-022-03411-y.

DOI:10.1038/s42003-022-03411-y

PMID:35551273

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9098640/

Abstract

High resolution hydroxyl radical protein footprinting (HR-HRPF) is a mass spectrometry-based method that measures the solvent exposure of multiple amino acids in a single experiment, offering constraints for experimentally informed computational modeling. HR-HRPF-based modeling has previously been used to accurately model the structure of proteins of known structure, but the technique has never been used to determine the structure of a protein of unknown structure. Here, we present the use of HR-HRPF-based modeling to determine the structure of the Ig-like domain of NRG1, a protein with no close homolog of known structure. Independent determination of the protein structure by both HR-HRPF-based modeling and heteronuclear NMR was carried out, with results compared only after both processes were complete. The HR-HRPF-based model was highly similar to the lowest energy NMR model, with a backbone RMSD of 1.6 Å. To our knowledge, this is the first use of HR-HRPF-based modeling to determine a previously uncharacterized protein structure.

摘要

高分辨率羟自由基蛋白足迹法（HR-HRPF）是一种基于质谱的方法，可在单次实验中测量多个氨基酸的溶剂暴露情况，为实验信息丰富的计算建模提供约束。基于 HR-HRPF 的建模以前曾被用于准确模拟已知结构的蛋白质的结构，但该技术从未用于确定未知结构的蛋白质的结构。在这里，我们展示了基于 HR-HRPF 的建模用于确定 NRG1 的免疫球蛋白样结构域的结构，该蛋白质没有已知结构的密切同源物。通过 HR-HRPF 建模和异核 NMR 独立确定蛋白质结构，并在两个过程都完成后才比较结果。基于 HR-HRPF 的模型与最低能量 NMR 模型非常相似，其骨架 RMSD 为 1.6Å。据我们所知，这是首次使用基于 HR-HRPF 的建模来确定以前未表征的蛋白质结构。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/27aa/9098640/8c71188188e8/42003_2022_3411_Fig1_HTML.jpg

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通过质谱联用和计算建模验证 NRG1 Ig 样结构域的测定。

Validated determination of NRG1 Ig-like domain structure by mass spectrometry coupled with computational modeling.

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