Alexey Bogdanov scite author profile

Studies of protein structure and dynamics are usually carried out in dilute buffer solutions, conditions that differ significantly from the crowded environment in the cell. The double electron‐electron resonance (DEER) technique can track proteins’ conformations in the cell by providing distance distributions between two attached spin labels. This technique, however, cannot access distances below 1.8 nm. Here, we show that GdIII‐19F Mims electron‐nuclear double resonance (ENDOR) measurements can cover part of this short range. Low temperature solution and in‐cell ENDOR measurements, complemented with room temperature solution and in‐cell GdIII‐19F PRE (paramagnetic relaxation enhancement) NMR measurements, were performed on fluorinated GB1 and ubiquitin (Ub), spin‐labeled with rigid GdIII tags. The proteins were delivered into human cells via electroporation. The solution and in‐cell derived GdIII‐19F distances were essentially identical and lie in the 1–1.5 nm range revealing that both, GB1 and Ub, retained their overall structure in the GdIII and 19F regions in the cell.

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Frequency swept pulses for the enhanced resolution of ENDOR spectra detecting on higher spin transitions of Gd(III)

Rogers

Bogdanov

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et al. 2023

Journal of Magnetic Resonance

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Gd^III‐¹⁹F Distance Measurements for Proteins in Cells by Electron‐Nuclear Double Resonance

et al. 2023

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show abstract

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Alexey Bogdanov

Gd^III‐¹⁹F Distance Measurements for Proteins in Cells by Electron‐Nuclear Double Resonance

Frequency swept pulses for the enhanced resolution of ENDOR spectra detecting on higher spin transitions of Gd(III)

Gd^III‐¹⁹F Distance Measurements for Proteins in Cells by Electron‐Nuclear Double Resonance

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Alexey Bogdanov

GdIII‐19F Distance Measurements for Proteins in Cells by Electron‐Nuclear Double Resonance

Frequency swept pulses for the enhanced resolution of ENDOR spectra detecting on higher spin transitions of Gd(III)

GdIII‐19F Distance Measurements for Proteins in Cells by Electron‐Nuclear Double Resonance

Contact Info

Product

Resources

About

Gd^III‐¹⁹F Distance Measurements for Proteins in Cells by Electron‐Nuclear Double Resonance

Gd^III‐¹⁹F Distance Measurements for Proteins in Cells by Electron‐Nuclear Double Resonance