Measuring distances in biology at the molecular level is of great importance for understanding the structure and function of proteins, nucleic acids and other biological molecules and their complexes. Pulsed Dipolar Spectroscopy (PDS) offers advantages with respect to other methods as it is uniquely sensitive and specific to electronic spin centers and allows measurements in near-native conditions, comprising the in-cell environment. PDS methods measure the electron spin–spin dipolar interaction, therefore they require the presence of at least two paramagnetic centers, which are often stable radicals. Recent developments have introduced transient triplet states, photo-activated by a laser pulse, as spin labels and probes, thereby establishing a new family of techniques—Light-induced PDS (LiPDS). In this chapter, an overview of these methods is provided, looking at the chromophores that can be used for LiPDS and some of the technical aspects of the experiments. A guide to the choice of technique that can yield the best results, depending on the type of system studied and the information required, is provided. Examples of previous LiPDS studies of model systems and proteins are given. Characterization data for the chromophores used in these studies is tabulated to help selection of appropriate triplet state probes in future studies. Keywords: Triplet-radical and triplet-triplet dipolar interaction; Pulsed dipolar spectroscopy; EPR distance measurement; Photoexcited triplet state; Porphyrins; Chromophores; site-directed spin labeling; Light induced double electron electron resonance (LiDEER); Laser induced magnetic dipole (LaserIMD) spectroscopy; Light induced relaxation induced dipolar modulation enhancement (LiRIDME)

Light-induced pulsed dipolar EPR spectroscopy for distance and orientation analysis

Barbon, Antonio;Di Valentin, Marilena
2022

Abstract

Measuring distances in biology at the molecular level is of great importance for understanding the structure and function of proteins, nucleic acids and other biological molecules and their complexes. Pulsed Dipolar Spectroscopy (PDS) offers advantages with respect to other methods as it is uniquely sensitive and specific to electronic spin centers and allows measurements in near-native conditions, comprising the in-cell environment. PDS methods measure the electron spin–spin dipolar interaction, therefore they require the presence of at least two paramagnetic centers, which are often stable radicals. Recent developments have introduced transient triplet states, photo-activated by a laser pulse, as spin labels and probes, thereby establishing a new family of techniques—Light-induced PDS (LiPDS). In this chapter, an overview of these methods is provided, looking at the chromophores that can be used for LiPDS and some of the technical aspects of the experiments. A guide to the choice of technique that can yield the best results, depending on the type of system studied and the information required, is provided. Examples of previous LiPDS studies of model systems and proteins are given. Characterization data for the chromophores used in these studies is tabulated to help selection of appropriate triplet state probes in future studies. Keywords: Triplet-radical and triplet-triplet dipolar interaction; Pulsed dipolar spectroscopy; EPR distance measurement; Photoexcited triplet state; Porphyrins; Chromophores; site-directed spin labeling; Light induced double electron electron resonance (LiDEER); Laser induced magnetic dipole (LaserIMD) spectroscopy; Light induced relaxation induced dipolar modulation enhancement (LiRIDME)
2022
Methods in Enzymology
9780323999748
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/3442226
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