在测量亮氨酸拉链基序肽(GCN4-LZ)的线圈间距离时,观察到相对于X波段,Q波段的脉冲电子双共振/双电子电子共振(PELDOR/DEER)实验的灵敏度有显著提高。
Significantly improved sensitivity of Q-band PELDOR/DEER experiments relative to X-band is observed in measuring the intercoil distance of a leucine zipper motif peptide (GCN4-LZ).
作者信息
Ghimire Harishchandra, McCarrick Robert M, Budil David E, Lorigan Gary A
机构信息
Department of Chemistry and Biochemistry, Miami University, Oxford, Ohio 45056, USA.
出版信息
Biochemistry. 2009 Jun 30;48(25):5782-4. doi: 10.1021/bi900781u.
Abstract
Pulsed electron double resonance (PELDOR)/double electron-electron resonance (DEER) spectroscopy is a very powerful structural biology tool in which the dipolar coupling between two unpaired electron spins (site-directed nitroxide spin-labels) is measured. These measurements are typically conducted at X-band (9.4 GHz) microwave excitation using the four-pulse DEER sequence and can often require up to 12 h of signal averaging for biological samples (depending on the spin-label concentration). In this work, we present for the first time a substantial increase in DEER sensitivity obtained by collecting DEER spectra at Q-band (34 GHz), when compared to X-band. The huge boost in sensitivity (factor of 13) demonstrated at Q-band represents a 169-fold decrease in data collection time, reveals a greatly improved frequency spectrum and higher-quality distance data, and significantly increases sample throughput. Thus, the availability of Q-band DEER spectroscopy should have a major impact on structural biology studies using site-directed spin labeling EPR techniques.
摘要
脉冲电子双共振(PELDOR)/双电子 - 电子共振(DEER)光谱学是一种非常强大的结构生物学工具,用于测量两个未配对电子自旋(定点硝基氧自旋标记)之间的偶极耦合。这些测量通常在X波段(9.4 GHz)微波激发下使用四脉冲DEER序列进行,对于生物样品,通常需要长达12小时的信号平均(取决于自旋标记浓度)。在这项工作中,我们首次展示了与X波段相比,通过在Q波段(34 GHz)收集DEER光谱获得的DEER灵敏度大幅提高。在Q波段展示的灵敏度大幅提升(13倍)意味着数据收集时间减少了169倍,揭示了大大改善的频谱和更高质量的距离数据,并显著提高了样品通量。因此,Q波段DEER光谱学的可用性应该会对使用定点自旋标记EPR技术的结构生物学研究产生重大影响。
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