基于典型血红素蛋白的光诱导脉冲电子顺磁共振偶极光谱学

Light-Induced Pulsed EPR Dipolar Spectroscopy on a Paradigmatic Hemeprotein.

作者信息

Dal Farra Maria Giulia, Richert Sabine, Martin Caterina, Larminie Charles, Gobbo Marina, Bergantino Elisabetta, Timmel Christiane R, Bowen Alice M, Di Valentin Marilena

机构信息

Department of Chemical Sciences, University of Padova, Via Marzolo 1, 35131, Padova, Italy.

Centre for Advanced Electron Spin Resonance (CAESR) Department of Chemistry, Inorganic Chemistry Laboratory, University of Oxford, South Parks Road, Oxford, OX1 3QR, UK.

出版信息

Chemphyschem. 2019 Apr 2;20(7):931-935. doi: 10.1002/cphc.201900139. Epub 2019 Mar 21.

DOI:10.1002/cphc.201900139

PMID:30817078

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6618045/

Abstract

Light-induced pulsed EPR dipolar spectroscopic methods allow the determination of nanometer distances between paramagnetic sites. Here we employ orthogonal spin labels, a chromophore triplet state and a stable radical, to carry out distance measurements in singly nitroxide-labeled human neuroglobin. We demonstrate that Zn-substitution of neuroglobin, to populate the Zn(II) protoporphyrin IX triplet state, makes it possible to perform light-induced pulsed dipolar experiments on hemeproteins, extending the use of light-induced dipolar spectroscopy to this large class of metalloproteins. The versatility of the method is ensured by the employment of different techniques: relaxation-induced dipolar modulation enhancement (RIDME) is applied for the first time to the photoexcited triplet state. In addition, an alternative pulse scheme for laser-induced magnetic dipole (LaserIMD) spectroscopy, based on the refocused-echo detection sequence, is proposed for accurate zero-time determination and reliable distance analysis.

摘要

光诱导脉冲电子顺磁共振偶极光谱方法可用于测定顺磁位点之间的纳米距离。在此，我们采用正交自旋标记、一种发色团三重态和一种稳定自由基，对单一氧化氮标记的人神经球蛋白进行距离测量。我们证明，用锌取代神经球蛋白中的铁，以填充锌（II）原卟啉IX三重态，使得对血红素蛋白进行光诱导脉冲偶极实验成为可能，从而将光诱导偶极光谱的应用扩展到这类大型金属蛋白。通过采用不同技术确保了该方法的通用性：弛豫诱导偶极调制增强（RIDME）首次应用于光激发三重态。此外，还提出了一种基于重聚焦回波检测序列的激光诱导磁偶极（LaserIMD）光谱的替代脉冲方案，用于精确的零时间测定和可靠的距离分析。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fcb2/6618045/06288b2b8364/CPHC-20-931-g001.jpg

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基于典型血红素蛋白的光诱导脉冲电子顺磁共振偶极光谱学

Light-Induced Pulsed EPR Dipolar Spectroscopy on a Paradigmatic Hemeprotein.

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