Pulsed EPR dipolar spectroscopy at Q- and G-band on a trityl biradical

Akhmetzyanov, Dmitry; Schöps, Philipp; Marko, Andriy; Kunjir, Nitin C.; Sigurdsson, Snorri Th.; Prisner, Thomas F.

doi:10.1039/c5cp03671b

Cited by 45 publications

(43 citation statements)

References 40 publications

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“…18 In the cited study the double-frequency oscillations were observed at ~ g ⊥ orientations of ED EPR spectrum, meaning that the ( x , y ) plane of each TAM is closely parallel to the spin-spin vector AB. In agreement with this conclusion, the opposite DEER orientation dependence in our case implies opposite TAM orientations relative to the spin-spin vector AB: the ( x , y ) plane of TAM is perpendicular to AB and to the DNA helix axis.…”

mentioning

confidence: 81%

“…15 Resolution of the g -tensor components improves at higher frequencies; e.g., a recent PDS study at G-band (180 GHz) demonstrated orientation-selective Double Electron-Electron Resonance (DEER, also known as PELDOR 17 ) measurements on TAM spin labels. 18 Here, we use orientation selectivity to investigate the preferred TAM orientations in a set of doubly TAM-labeled 10-mer dsDNAs shown in Figure 1, in order to assess on this basis the underlying TAM-DNA interactions. In two dsDNAs, TAMs were attached using a relatively long piperazine linker ( I , II ), whereas in the third one ( III ), a much shorter amine linker was implemented for comparison of conformational flexibility.…”

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confidence: 99%

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Interaction of triarylmethyl radicals with DNA termini revealed by orientation-selective W-band double electron–electron resonance spectroscopy

Fedin

Shevelev

Pyshnyi

et al. 2016

Phys. Chem. Chem. Phys.

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Spin labels selectively attached to biomolecules allow high-accuracy nanoscale distance measurements using pulsed Electron Paramagnetic Resonance (EPR), in many cases providing the only access to structure of complex biosystems. Triarylmethyl (TAM) radicals have recently emerged as a new type of spin labels expanding the applicability of the method to physiological temperatures. Along with other factors, the accuracy of the obtained distances crucially relies on the understanding of interactions between biomolecules and spin labels. In this work we consider such crucial interactions and their impact on pulsed EPR distance measurements in TAM-labeled DNAs. Using orientation-selective high-frequency (94 GHz) Double Electron-Electron Resonance (DEER) we demonstrate strong specific interactions between DNA termini and TAM label, leading to a significant restriction of its conformational mobility. Understanding of such interactions guides the way to selecting optimum TAM-labeling strategies, thus refining nanoscale EPR distance measurements in nucleic acids and their complexes at physiological conditions.

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confidence: 81%

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confidence: 99%

Interaction of triarylmethyl radicals with DNA termini revealed by orientation-selective W-band double electron–electron resonance spectroscopy

Fedin

Shevelev

Pyshnyi

et al. 2016

Phys. Chem. Chem. Phys.

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“…These new labels also show promise for single-frequency PDS measurements, where a long phase memory time and higher stability allow for room temperature distance measurements on immobilized biomolecules. 17–21 …”

Section: Introductionmentioning

confidence: 99%

Gd³⁺–Gd³⁺distances exceeding 3 nm determined by very high frequency continuous wave electron paramagnetic resonance

Clayton

Godt

et al. 2017

Phys. Chem. Chem. Phys.

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Electron paramagnetic resonance spectroscopy in combination with site-directed spin-labeling is a very powerful tool for elucidating the structure and organization of biomolecules. Gd3+ complexes have recently emerged as a new class of spin labels for distance determination by pulsed EPR spectroscopy at Q- and W-band. We present CW EPR measurements at 240 GHz (8.6 Tesla) on a series of Gd-rulers of the type Gd-PyMTA—spacer—Gd-PyMTA, with Gd-Gd distances ranging from 1.2 nm to 4.3 nm. CW EPR measurements of these Gd-rulers show that significant dipolar broadening of the central |−1/2〉 → |1/2〉 transition occurs at 30 K for Gd-Gd distances up to ~ 3.4 nm with Gd-PyMTA as the spin label. This represents a significant extension for distances accessible by CW EPR, as nitroxide-based spin labels at X-band frequencies can typically only access distances up to ~ 2 nm. We show that this broadening persists at biologically relevant temperatures above 200 K, and that this method is further extendable up to room temperature by immobilizing the sample in glassy trehalose. We show that the peak-to-peak broadening of the central transition follows the expected 1/r3 dependence for the electron-electron dipolar interaction, from cryogenic temperatures up to room temperature. A simple procedure for simulating the dependence of the lineshape on interspin distance is presented, in which the broadening of the central transition is modeled as an S = 1/2 spin whose CW EPR lineshape is broadened through electron-electron dipolar interactions with a neighboring S = 7/2 spin.

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“…The distances between spin labels can be obtained using different approaches, including Pulsed Electron Double Resonance (PELDOR, also known as DEER) [31, 32], Double Quantum Coherence (DQC) EPR [33, 34], single-frequency technique for refocusing dipolar couplings (SIFTER) [35], Relaxation Enhancement (RE) [36,37]. Owing to the narrow linewidth, TAM is not suitable as a spin label for X-band DEER; however, if DQC or SIFTER is used, the narrow line of TAM becomes a huge advantage and leads to a higher sensitivity compared to nitroxides [27,28,38,39]. At high magnetic fields (e.g.…”

Section: Introductionmentioning

confidence: 99%

“…G-band) the EPR linewidth of TAM increases due to the g-anisotropy and reaches ca. 130 MHz, thus allowing application of PELDOR/DEER as well [38]. …”

Section: Introductionmentioning

confidence: 99%

Triarylmethyl Radicals: An EPR Study of ¹³C Hyperfine Coupling Constants

Kuzhelev

Tormyshev

Rogozhnikova

et al. 2016

Zeitschrift Für Physikalische Chemie

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Triarylmethyl (TAM) radicals are widely used in Electron Paramagnetic Resonance (EPR) spectroscopy as spin labels and in EPR imaging as spin probes for in vivo oxymetry. One of the key advantages of TAMs is extremely narrow EPR line, especially in case of deuterated analogues (~5 μT). Another advantage is their slow spin relaxation even at physiological temperatures allowing, in particular, application of pulsed dipolar EPR methods for distance measurements in biomolecules. In this paper a large series of TAM radicals and their deuterated analogues is synthesized, and corresponding spectroscopic parameters including 13C hyperfine constants are obtained for the first time. The negligible dependence of 13C hyperfine constants on solvent, as well as on structure and number of substituents at para-C atoms of aromatic rings, has been found. In addition, we have demonstrated that 13C signals at natural abundance can be employed for successful room-temperature distance measurements using Pulsed Electron Double Resonance (PELDOR or DEER).

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Pulsed EPR dipolar spectroscopy at Q- and G-band on a trityl biradical

Cited by 45 publications

References 40 publications

Interaction of triarylmethyl radicals with DNA termini revealed by orientation-selective W-band double electron–electron resonance spectroscopy

Interaction of triarylmethyl radicals with DNA termini revealed by orientation-selective W-band double electron–electron resonance spectroscopy

Gd³⁺–Gd³⁺distances exceeding 3 nm determined by very high frequency continuous wave electron paramagnetic resonance

Triarylmethyl Radicals: An EPR Study of ¹³C Hyperfine Coupling Constants

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Pulsed EPR dipolar spectroscopy at Q- and G-band on a trityl biradical

Cited by 45 publications

References 40 publications

Interaction of triarylmethyl radicals with DNA termini revealed by orientation-selective W-band double electron–electron resonance spectroscopy

Interaction of triarylmethyl radicals with DNA termini revealed by orientation-selective W-band double electron–electron resonance spectroscopy

Gd3+–Gd3+distances exceeding 3 nm determined by very high frequency continuous wave electron paramagnetic resonance

Triarylmethyl Radicals: An EPR Study of 13C Hyperfine Coupling Constants

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Gd³⁺–Gd³⁺distances exceeding 3 nm determined by very high frequency continuous wave electron paramagnetic resonance

Triarylmethyl Radicals: An EPR Study of ¹³C Hyperfine Coupling Constants