Increasing the Modulation Depth of Gd-III-Based Pulsed Dipolar EPR Spectroscopy (PDS) with Porphyrin Gd-III Laser-Induced Magnetic Dipole Spectroscopy

Scherer A, Yao X, Qi M, Wiedmaier M, Godt A, Drescher M (2022)
Journal of Physical Chemistry Letters.

Zeitschriftenaufsatz | E-Veröff. vor dem Druck | Englisch
 
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DOI
Autor*in
Scherer, Andreas; Yao, XuemeiUniBi; Qi, MianUniBi ; Wiedmaier, Max; Godt, AdelheidUniBi; Drescher, Malte
Einrichtung
Fakultät für Physik
Fakultät für Chemie > Organische und Makromolekulare Chemie
Abstract / Bemerkung
Distance determination with pulsed EPR has become an important technique for the structural investigation of biomacromolecules, with double electron-electron resonance spectroscopy (DEER) as the most important method. Ge-III-based spin labels are one of the most frequently used spin labels for DEER owing to their stability against reduction, high magnetic moment, and absence of orientation selection. A disadvantage of Gd-III-Ge-III DEER is the low modulation depth due to the broad EPR spectrum of Gd-III. Here, we introduce laser-induced magnetic dipole spectroscopy (LaserIMD) with a spin pair consisting of Ge-III(PymiMTA) and a photoexcited porphyrin as an alternative technique. We show that the excited state of the porphyrin is not disturbed by the presence of the Ge(III )complex and that herewith modulation depths of almost 40% are possible. This is significantly higher than the value of 7.2% that was achieved with Gd-III-Ge-III DEER.
Erscheinungsjahr
2022
Zeitschriftentitel
Journal of Physical Chemistry Letters
eISSN
1948-7185
Page URI
https://pub.uni-bielefeld.de/record/2967866

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Scherer A, Yao X, Qi M, Wiedmaier M, Godt A, Drescher M. Increasing the Modulation Depth of Gd-III-Based Pulsed Dipolar EPR Spectroscopy (PDS) with Porphyrin Gd-III Laser-Induced Magnetic Dipole Spectroscopy. Journal of Physical Chemistry Letters. 2022.
Scherer, A., Yao, X., Qi, M., Wiedmaier, M., Godt, A., & Drescher, M. (2022). Increasing the Modulation Depth of Gd-III-Based Pulsed Dipolar EPR Spectroscopy (PDS) with Porphyrin Gd-III Laser-Induced Magnetic Dipole Spectroscopy. Journal of Physical Chemistry Letters. https://doi.org/10.1021/acs.jpclett.2c02138
Scherer, Andreas, Yao, Xuemei, Qi, Mian, Wiedmaier, Max, Godt, Adelheid, and Drescher, Malte. 2022. “Increasing the Modulation Depth of Gd-III-Based Pulsed Dipolar EPR Spectroscopy (PDS) with Porphyrin Gd-III Laser-Induced Magnetic Dipole Spectroscopy”. Journal of Physical Chemistry Letters.
Scherer, A., Yao, X., Qi, M., Wiedmaier, M., Godt, A., and Drescher, M. (2022). Increasing the Modulation Depth of Gd-III-Based Pulsed Dipolar EPR Spectroscopy (PDS) with Porphyrin Gd-III Laser-Induced Magnetic Dipole Spectroscopy. Journal of Physical Chemistry Letters.
Scherer, A., et al., 2022. Increasing the Modulation Depth of Gd-III-Based Pulsed Dipolar EPR Spectroscopy (PDS) with Porphyrin Gd-III Laser-Induced Magnetic Dipole Spectroscopy. Journal of Physical Chemistry Letters.
A. Scherer, et al., “Increasing the Modulation Depth of Gd-III-Based Pulsed Dipolar EPR Spectroscopy (PDS) with Porphyrin Gd-III Laser-Induced Magnetic Dipole Spectroscopy”, Journal of Physical Chemistry Letters, 2022.
Scherer, A., Yao, X., Qi, M., Wiedmaier, M., Godt, A., Drescher, M.: Increasing the Modulation Depth of Gd-III-Based Pulsed Dipolar EPR Spectroscopy (PDS) with Porphyrin Gd-III Laser-Induced Magnetic Dipole Spectroscopy. Journal of Physical Chemistry Letters. (2022).
Scherer, Andreas, Yao, Xuemei, Qi, Mian, Wiedmaier, Max, Godt, Adelheid, and Drescher, Malte. “Increasing the Modulation Depth of Gd-III-Based Pulsed Dipolar EPR Spectroscopy (PDS) with Porphyrin Gd-III Laser-Induced Magnetic Dipole Spectroscopy”. Journal of Physical Chemistry Letters (2022).
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