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Leveraging relaxation-optimized 1H–13CF correlations in 4-19F-phenylalanine as atomic beacons for probing structure and dynamics of large proteins

Leveraging relaxation-optimized 1H–13CF correlations in 4-19F-phenylalanine as atomic beacons for probing structure and dynamics of large proteins
Leveraging relaxation-optimized 1H–13CF correlations in 4-19F-phenylalanine as atomic beacons for probing structure and dynamics of large proteins

NMR spectroscopy of biomolecules provides atomic level information into their structure, dynamics and interactions with their binding partners. However, signal attenuation from line broadening caused by fast relaxation and signal overlap often limits the application of NMR to large macromolecular systems. Here we leverage the slow relaxation properties of 13C nuclei attached to 19F in aromatic 19F–13C spin pairs as well as the spin–spin coupling between the fluorinated 13C nucleus and the hydrogen atom at the meta-position to record two-dimensional 1H–13CF correlation spectra with transverse relaxation-optimized spectroscopy selection on 13CF. To accomplish this, we synthesized [4-19F13Cζ; 3,5-2H2ε] Phe, engineered for optimal relaxation properties, and adapted a residue-specific route to incorporate this residue globally into proteins and a site-specific 4-19F Phe encoding strategy. This approach resulted in narrow linewidths for proteins ranging from 30 kDa to 180 kDa, enabling interaction studies with small-molecule ligands without requiring specialized 19F-compatible probes. (Figure presented.)

1755-4330
835-846
Boeszoermenyi, Andras
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Radeva, Denitsa L.
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Schindler, Sebastian
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Valadares, Veronica
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Padmanabha Das, Krishna M.
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Dubey, Abhinav
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Viennet, Thibault
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Schmitt, Max
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Kast, Peter
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Gelev, Vladimir M.
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Stoyanov, Nikolay
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Burdzhiev, Nikola
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Petrov, Ognyan
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Ficarro, Scott
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Marto, Jarred
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Geffken, Ezekiel A.
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Dhe-Paganon, Sirano
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Seo, Hyuk Soo
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Alexander, Nathan D.
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Cooley, Richard B.
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Mehl, Ryan A.
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Kovacs, Helena
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Anklin, Clemens
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Bermel, Wolfgang
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Kuprov, Ilya
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Arthanari, Haribabu
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et al.
Boeszoermenyi, Andras
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Radeva, Denitsa L.
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Schindler, Sebastian
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Valadares, Veronica
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Padmanabha Das, Krishna M.
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Dubey, Abhinav
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Viennet, Thibault
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Schmitt, Max
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Kast, Peter
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Gelev, Vladimir M.
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Stoyanov, Nikolay
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Burdzhiev, Nikola
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Petrov, Ognyan
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Ficarro, Scott
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Marto, Jarred
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Geffken, Ezekiel A.
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Dhe-Paganon, Sirano
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Seo, Hyuk Soo
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Alexander, Nathan D.
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Cooley, Richard B.
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Mehl, Ryan A.
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Kovacs, Helena
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Anklin, Clemens
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Bermel, Wolfgang
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Kuprov, Ilya
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Takeuchi, Koh
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Arthanari, Haribabu
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Boeszoermenyi, Andras, Radeva, Denitsa L. and Schindler, Sebastian , et al. (2025) Leveraging relaxation-optimized 1H–13CF correlations in 4-19F-phenylalanine as atomic beacons for probing structure and dynamics of large proteins. Nature Chemistry, 17 (6), 835-846. (doi:10.1038/s41557-025-01818-8).

Record type: Article

Abstract

NMR spectroscopy of biomolecules provides atomic level information into their structure, dynamics and interactions with their binding partners. However, signal attenuation from line broadening caused by fast relaxation and signal overlap often limits the application of NMR to large macromolecular systems. Here we leverage the slow relaxation properties of 13C nuclei attached to 19F in aromatic 19F–13C spin pairs as well as the spin–spin coupling between the fluorinated 13C nucleus and the hydrogen atom at the meta-position to record two-dimensional 1H–13CF correlation spectra with transverse relaxation-optimized spectroscopy selection on 13CF. To accomplish this, we synthesized [4-19F13Cζ; 3,5-2H2ε] Phe, engineered for optimal relaxation properties, and adapted a residue-specific route to incorporate this residue globally into proteins and a site-specific 4-19F Phe encoding strategy. This approach resulted in narrow linewidths for proteins ranging from 30 kDa to 180 kDa, enabling interaction studies with small-molecule ligands without requiring specialized 19F-compatible probes. (Figure presented.)

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Accepted/In Press date: 28 March 2025
e-pub ahead of print date: 5 May 2025
Published date: June 2025

Identifiers

Local EPrints ID: 504980
URI: http://eprints.soton.ac.uk/id/eprint/504980
DOI: doi:10.1038/s41557-025-01818-8
ISSN: 1755-4330
PURE UUID: 16260944-cb14-4ad5-ac85-be87d0ef06f1
ORCID for Ilya Kuprov: ORCID iD orcid.org/0000-0003-0430-2682

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Date deposited: 23 Sep 2025 16:58
Last modified: 24 Sep 2025 01:46

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Contributors

Author: Andras Boeszoermenyi
Author: Denitsa L. Radeva
Author: Sebastian Schindler
Author: Veronica Valadares
Author: Krishna M. Padmanabha Das
Author: Abhinav Dubey
Author: Thibault Viennet
Author: Max Schmitt
Author: Peter Kast
Author: Vladimir M. Gelev
Author: Nikolay Stoyanov
Author: Nikola Burdzhiev
Author: Ognyan Petrov
Author: Scott Ficarro
Author: Jarred Marto
Author: Ezekiel A. Geffken
Author: Sirano Dhe-Paganon
Author: Hyuk Soo Seo
Author: Nathan D. Alexander
Author: Richard B. Cooley
Author: Ryan A. Mehl
Author: Helena Kovacs
Author: Clemens Anklin
Author: Wolfgang Bermel
Author: Ilya Kuprov ORCID iD
Author: Koh Takeuchi
Author: Haribabu Arthanari
Corporate Author: et al.

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