A Gadolinium Spin Label with Both a Narrow Central Transition and Short Tether for Use in Double Electron Electron Resonance Distance Measurements

Shah, Anokhi; Roux, Amandine Le; Starck, Matthieu; Mosely, Jackie A.; Stevens, Michael A.; Norman, D.; Hunter, Robert I.; Mkami, Hassane El; Smith, Graham; Parker, David; Lovett, Janet E.

doi:10.1021/acs.inorgchem.8b02892

Cited by 47 publications

(82 citation statements)

References 58 publications

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“…Indeed, the ease of perturbation of the ligand field in the complexes of L 1 and its derivatives, suggests that these systems are well suited as the basis for responsive probe design, e.g. in creating new Gd spin-labels for double electron-electron resonance (DEER) 48 , and paramagnetic NMR applications. 25…”

Section: Discussionmentioning

confidence: 99%

Periodic trends and hidden dynamics of magnetic properties in three series of triazacyclononane lanthanide complexes

et al. 2019

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Section: Discussionmentioning

confidence: 99%

Periodic trends and hidden dynamics of magnetic properties in three series of triazacyclononane lanthanide complexes

et al. 2019

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“…Currently, several research groups are highly active in the design of new Gd 3+ ‐based spin labels with optimized properties, such as 1) a linker stable in the cellular environment, 2) a very high affinity for the coordinated metal to avoid the presence of Gd 3+ ions free in the cellular suspension, 3) a short and rigid linker to decrease the width of distance distribution, 4) a small ZFS (zero field splitting) parameter in order to have the narrower central transition and thus the best signal amplitude, and 5) a smaller tag size . For example, a newly designed Gd 3+ ‐based tag (4‐vinyl‐PyMTA) was demonstrated to be a valuable spin label to selectively target Cys residues of a proline‐rich peptide thanks to a vinyl group.…”

Section: Spin Labels For In‐cell Epr Studiesmentioning

confidence: 99%

In‐Cell EPR: Progress towards Structural Studies Inside Cells

et al. 2019

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Exploring the structure and dynamics of biomolecules in the context of their intracellular environment has become the ultimate challenge for structural biology. As the cellular environment is barely reproducible in vitro, investigation of biomolecules directly inside cells has attracted a growing interest. Among magnetic resonance approaches, site‐directed spin labeling (SDSL) coupled to electron paramagnetic resonance (EPR) spectroscopy provides competitive and advantageous features to capture protein structure and dynamics inside cells. To date, several in‐cell EPR approaches have been successfully applied to both bacterial and eukaryotic cells. In this review, the major advances of in‐cell EPR spectroscopy are summarized, as well as the challenges this approach still poses.

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“…In addition, metal ions can report on local structural information such as coordinating ligands and protonation state, information that is often essential in order to understand function. Spin labels based on Cu(II), Gd(III) and Mn(II) have appeared as alternatives to traditional nitroxides, and have been proven to have advantageous properties in certain cases …”

Section: Paramagnetic Metal Ion‐based Spin Labels For Proteins and Fomentioning

confidence: 99%

EPR Distance Measurements as a Tool to Characterize Protein‐DNA Interactions

Sameach

Ruthstein

2019

Israel Journal of Chemistry

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Over recent decades, electron paramagnetic resonance (EPR) spectroscopy has become an essential tool for exploring complex biological systems. Herein, we discuss the potential of pulsed EPR spectroscopy to shed light on the mechanisms of protein-DNA interactions. To this end, we first provide an overview of pulsed EPR methodology (and specifically, double electron electron resonance; DEER), with a focus on the various spin-labeling methods used today both for protein labeling and for DNA labeling. Next, after briefly discussing recent applications of DEER in protein-DNA studies, we introduce a detailed case study, an example of how EPR spectroscopy has been used to resolve the transcription mechanism of the CueR copper regulator.

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A Gadolinium Spin Label with Both a Narrow Central Transition and Short Tether for Use in Double Electron Electron Resonance Distance Measurements

Cited by 47 publications

References 58 publications

Periodic trends and hidden dynamics of magnetic properties in three series of triazacyclononane lanthanide complexes

Periodic trends and hidden dynamics of magnetic properties in three series of triazacyclononane lanthanide complexes

In‐Cell EPR: Progress towards Structural Studies Inside Cells

EPR Distance Measurements as a Tool to Characterize Protein‐DNA Interactions

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