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Fluorine NMR study of proline-rich sequences using fluoroprolines

Fluorine NMR study of proline-rich sequences using fluoroprolines
Fluorine NMR study of proline-rich sequences using fluoroprolines
Proline homopolymer motifs are found in many proteins; their peculiar conformational and dynamic properties are often directly involved in those proteins’ functions. However, the dynamics of proline homopolymers is hard to study by NMR due to a lack of amide protons and small chemical shift dispersion. Exploiting the spectroscopic properties of fluorinated prolines opens interesting perspectives to address these issues. Fluorinated prolines are already widely used in protein structure engineering – they introduce conformational and
dynamical biases – but their use as 19F NMR reporters of proline conformation has not yet been explored. In this work, we look at model peptides where Cγ-fluorinated prolines with opposite configurations of the chiral Cγ centre have been introduced at two positions in distinct polyproline segments. By looking at the effects of swapping these (4R)-fluoroproline and (4S)-fluoroproline within the polyproline segments, we were able to separate the intrinsic conformational properties of the polyproline sequence from the conformational alterations instilled by fluorination. We assess the fluoroproline 19F relaxation properties, and we exploit the latter in elucidating binding kinetics to the SH3 (Src homology 3) domain.
795-813
Sinnaeve, Davy
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Bouzayene, Abir Ben
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Ottoy, Emile
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Hofman, Gert-Jan
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Erdmann, Eva
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Linclau, Bruno
19b9cacd-b8e8-4c65-af36-6352cade84ba
Kuprov, Ilya
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Martins, José C.
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Torbeev, Vladimir
e8eb7b91-3c2f-4126-8362-76a41ba2e4d2
Kieffer, Bruno
34187faf-4dc3-4d1b-895c-cee8ce760217
Sinnaeve, Davy
1bff7c9e-d706-4318-9042-b291807752d6
Bouzayene, Abir Ben
b3632613-8e5c-4e74-9f3f-b212ac8ad8c3
Ottoy, Emile
d34b7519-7bc5-4f61-8bc8-5a0ec5584b62
Hofman, Gert-Jan
696ede89-26ae-4a7e-88d8-0574fce74d93
Erdmann, Eva
82e19e70-3776-4061-97cc-661528f172ac
Linclau, Bruno
19b9cacd-b8e8-4c65-af36-6352cade84ba
Kuprov, Ilya
bb07f28a-5038-4524-8146-e3fc8344c065
Martins, José C.
6ca83d5b-f416-4309-a2ec-fe10d5024881
Torbeev, Vladimir
e8eb7b91-3c2f-4126-8362-76a41ba2e4d2
Kieffer, Bruno
34187faf-4dc3-4d1b-895c-cee8ce760217

Sinnaeve, Davy, Bouzayene, Abir Ben, Ottoy, Emile, Hofman, Gert-Jan, Erdmann, Eva, Linclau, Bruno, Kuprov, Ilya, Martins, José C., Torbeev, Vladimir and Kieffer, Bruno (2021) Fluorine NMR study of proline-rich sequences using fluoroprolines. Magnetic Resonance, 795-813. (doi:10.5194/mr-2-795-2021).

Record type: Article

Abstract

Proline homopolymer motifs are found in many proteins; their peculiar conformational and dynamic properties are often directly involved in those proteins’ functions. However, the dynamics of proline homopolymers is hard to study by NMR due to a lack of amide protons and small chemical shift dispersion. Exploiting the spectroscopic properties of fluorinated prolines opens interesting perspectives to address these issues. Fluorinated prolines are already widely used in protein structure engineering – they introduce conformational and
dynamical biases – but their use as 19F NMR reporters of proline conformation has not yet been explored. In this work, we look at model peptides where Cγ-fluorinated prolines with opposite configurations of the chiral Cγ centre have been introduced at two positions in distinct polyproline segments. By looking at the effects of swapping these (4R)-fluoroproline and (4S)-fluoroproline within the polyproline segments, we were able to separate the intrinsic conformational properties of the polyproline sequence from the conformational alterations instilled by fluorination. We assess the fluoroproline 19F relaxation properties, and we exploit the latter in elucidating binding kinetics to the SH3 (Src homology 3) domain.

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Accepted/In Press date: 28 September 2021
Published date: 9 November 2021
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Identifiers

Local EPrints ID: 452275
URI: http://eprints.soton.ac.uk/id/eprint/452275
DOI: doi:10.5194/mr-2-795-2021
PURE UUID: e493793d-25e4-4b77-bb55-8bc9e2e194a8
ORCID for Bruno Linclau: ORCID iD orcid.org/0000-0001-8762-0170
ORCID for Ilya Kuprov: ORCID iD orcid.org/0000-0003-0430-2682

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Date deposited: 02 Dec 2021 17:34
Last modified: 17 Mar 2024 03:28

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Contributors

Author: Davy Sinnaeve
Author: Abir Ben Bouzayene
Author: Emile Ottoy
Author: Gert-Jan Hofman
Author: Eva Erdmann
Author: Bruno Linclau ORCID iD
Author: Ilya Kuprov ORCID iD
Author: José C. Martins
Author: Vladimir Torbeev
Author: Bruno Kieffer

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