Orientation selective DEER measurements on vinculin tail at X-band frequencies reveal spin label orientations

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• 作者：Christoph Abé ; ^a ; Daniel Klose^a ; Franziska Dietrich^b ; ¹ ; Wolfgang H. Ziegler^b ; ^c ; Yevhen Polyhach^d ; Gunnar Jeschke^d ; Heinz-Jü ; rgen Steinhoff^a ; ^{hsteinho@uni-osnabrueck.de}
• 关键词：Site-directed spin labeling ; Orientation selective DEER ; PELDOR
• 刊名：Journal of Magnetic Resonance
• 出版年：2012
• 期刊代码：126_10907807
• 类别：ch
• 出版时间：March, 2012
• 卷：216
• 期：Complete
• 页码：53-61
• 文件大小：725 K

摘要

Double electron electron resonance (DEER) spectroscopy has been established as a valuable method to determine distances between spin labels bound to protein molecules. Caused by selective excitation of molecular orientations DEER primary data also depend on the mutual orientation of the spin labels. For a doubly spin labeled variant of the cytoskeletal protein vinculin tail strong orientation selection can be observed already at X-band frequencies, which allows us to reduce the problem to the relative orientation of two molecular axes and the spin-spin axis parameterized by three angles. A full grid search of parameter space reveals that the DEER experiment introduces parameter-space symmetry higher than the symmetry of the spin Hamiltonian. Thus, the number of equivalent parameter sets is twice as large as expected and the relative orientation of the two spin labels is ambiguous. Except for this inherent ambiguity the most probable relative orientation of the two spin labels can be determined with good confidence and moderate uncertainty by global fitting of a set of five DEER experiments at different offsets between pump and observer frequency. The experiment provides restraints on the angles between the z axis of the nitroxide molecular frame and the spin-spin vector and on the dihedral between the two z axes. When using the same type of label at both sites, assignment of the angle restraints is ambiguous and the sign of the dihedral restraint is also ambiguous.