Computational model predicts protein binding sites of a luminescent ligand equipped with guanidiniocarbonyl-pyrrole groups

Neda Rafieiolhosseini; Matthias Killa; Thorben Neumann; Niklas Tötsch; Jean Noël Grad; Alexander Höing; Thies Dirksmeyer; Jochen Niemeyer; Christian Ottmann; Shirley K. Knauer; Michael Giese; Jens Voskuhl; Daniel Hoffmann

doi:10.3762/bjoc.18.137

Computational model predicts protein binding sites of a luminescent ligand equipped with guanidiniocarbonyl-pyrrole groups

Neda Rafieiolhosseini
, Matthias Killa
, Thorben Neumann
, Niklas Tötsch
, Jean Noël Grad
, Alexander Höing
, Thies Dirksmeyer
, Jochen Niemeyer
, Christian Ottmann
, Shirley K. Knauer
, Michael Giese
, Jens Voskuhl
, Daniel Hoffmann (Corresponding author)

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

3 Citaten (Scopus)

114 Downloads (Pure)

Samenvatting

The 14-3-3 protein family, one of the first discovered phosphoserine/phosphothreonine binding proteins, has attracted interest not only because of its important role in the cell regulatory processes but also due to its enormous number of interactions with other proteins. Here, we use a computational approach to predict the binding sites of the designed hybrid compound featuring aggregation-induced emission luminophores as a potential supramolecular ligand for 14-3-3ζ in the presence and absence of C-Raf peptides. Our results suggest that the area above and below the central pore of the dimeric 14-3-3ζ protein is the most probable binding site for the ligand. Moreover, we predict that the position of the ligand is sensitive to the presence of phosphorylated C-Raf peptides. With a series of experiments, we confirmed the computational prediction of two C₂ related, dominating binding sites on 14-3-3ζ that may bind to two of the supramolecular ligand molecules.

Originele taal-2	Engels
Pagina's (van-tot)	1322-1331
Aantal pagina's	10
Tijdschrift	Beilstein Journal of Organic Chemistry
Volume	18
DOI's	https://doi.org/10.3762/bjoc.18.137
Status	Gepubliceerd - 2022

Bibliografische nota

Publisher Copyright:
© 2022 Rafieiolhosseini et al.

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The authors wish to thank the Deutsche Forschungs-gemeinschaft (CRC 1093, projects A1, A7 and A10, B4, and B5) for financial support.

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10.3762/bjoc.18.137

1860-5397-18-137Definitieve gepubliceerde versie, 3,39 MBLicentie: CC BY

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Rafieiolhosseini, N., Killa, M., Neumann, T., Tötsch, N., Grad, J. N., Höing, A., Dirksmeyer, T., Niemeyer, J., Ottmann, C., Knauer, S. K., Giese, M., Voskuhl, J., & Hoffmann, D. (2022). Computational model predicts protein binding sites of a luminescent ligand equipped with guanidiniocarbonyl-pyrrole groups. Beilstein Journal of Organic Chemistry, 18, 1322-1331. https://doi.org/10.3762/bjoc.18.137

@article{7e61831b019e4e25955da2eb85aa1153,

title = "Computational model predicts protein binding sites of a luminescent ligand equipped with guanidiniocarbonyl-pyrrole groups",

abstract = "The 14-3-3 protein family, one of the first discovered phosphoserine/phosphothreonine binding proteins, has attracted interest not only because of its important role in the cell regulatory processes but also due to its enormous number of interactions with other proteins. Here, we use a computational approach to predict the binding sites of the designed hybrid compound featuring aggregation-induced emission luminophores as a potential supramolecular ligand for 14-3-3ζ in the presence and absence of C-Raf peptides. Our results suggest that the area above and below the central pore of the dimeric 14-3-3ζ protein is the most probable binding site for the ligand. Moreover, we predict that the position of the ligand is sensitive to the presence of phosphorylated C-Raf peptides. With a series of experiments, we confirmed the computational prediction of two C2 related, dominating binding sites on 14-3-3ζ that may bind to two of the supramolecular ligand molecules.",

keywords = "14-3-3 protein, AIE luminophores, fluorescence emission, guanidiniocarbonyl-pyrrole, ligand binding",

author = "Neda Rafieiolhosseini and Matthias Killa and Thorben Neumann and Niklas T{\"o}tsch and Grad, \{Jean No{\"e}l\} and Alexander H{\"o}ing and Thies Dirksmeyer and Jochen Niemeyer and Christian Ottmann and Knauer, \{Shirley K.\} and Michael Giese and Jens Voskuhl and Daniel Hoffmann",

note = "Funding Information: The authors wish to thank the Deutsche Forschungs-gemeinschaft (CRC 1093, projects A1, A7 and A10, B4, and B5) for financial support. ",

year = "2022",

doi = "10.3762/bjoc.18.137",

language = "English",

volume = "18",

pages = "1322--1331",

journal = "Beilstein Journal of Organic Chemistry",

issn = "1860-5397",

publisher = "Beilstein-Institut Zur Forderung der Chemischen Wissenschaften",

}

Rafieiolhosseini, N, Killa, M, Neumann, T, Tötsch, N, Grad, JN, Höing, A, Dirksmeyer, T, Niemeyer, J, Ottmann, C, Knauer, SK, Giese, M, Voskuhl, J & Hoffmann, D 2022, 'Computational model predicts protein binding sites of a luminescent ligand equipped with guanidiniocarbonyl-pyrrole groups', Beilstein Journal of Organic Chemistry, vol. 18, blz. 1322-1331. https://doi.org/10.3762/bjoc.18.137

TY - JOUR

T1 - Computational model predicts protein binding sites of a luminescent ligand equipped with guanidiniocarbonyl-pyrrole groups

AU - Rafieiolhosseini, Neda

AU - Killa, Matthias

AU - Neumann, Thorben

AU - Tötsch, Niklas

AU - Grad, Jean Noël

AU - Höing, Alexander

AU - Dirksmeyer, Thies

AU - Niemeyer, Jochen

AU - Ottmann, Christian

AU - Knauer, Shirley K.

AU - Giese, Michael

AU - Voskuhl, Jens

AU - Hoffmann, Daniel

N1 - Funding Information: The authors wish to thank the Deutsche Forschungs-gemeinschaft (CRC 1093, projects A1, A7 and A10, B4, and B5) for financial support.

PY - 2022

Y1 - 2022

N2 - The 14-3-3 protein family, one of the first discovered phosphoserine/phosphothreonine binding proteins, has attracted interest not only because of its important role in the cell regulatory processes but also due to its enormous number of interactions with other proteins. Here, we use a computational approach to predict the binding sites of the designed hybrid compound featuring aggregation-induced emission luminophores as a potential supramolecular ligand for 14-3-3ζ in the presence and absence of C-Raf peptides. Our results suggest that the area above and below the central pore of the dimeric 14-3-3ζ protein is the most probable binding site for the ligand. Moreover, we predict that the position of the ligand is sensitive to the presence of phosphorylated C-Raf peptides. With a series of experiments, we confirmed the computational prediction of two C2 related, dominating binding sites on 14-3-3ζ that may bind to two of the supramolecular ligand molecules.

AB - The 14-3-3 protein family, one of the first discovered phosphoserine/phosphothreonine binding proteins, has attracted interest not only because of its important role in the cell regulatory processes but also due to its enormous number of interactions with other proteins. Here, we use a computational approach to predict the binding sites of the designed hybrid compound featuring aggregation-induced emission luminophores as a potential supramolecular ligand for 14-3-3ζ in the presence and absence of C-Raf peptides. Our results suggest that the area above and below the central pore of the dimeric 14-3-3ζ protein is the most probable binding site for the ligand. Moreover, we predict that the position of the ligand is sensitive to the presence of phosphorylated C-Raf peptides. With a series of experiments, we confirmed the computational prediction of two C2 related, dominating binding sites on 14-3-3ζ that may bind to two of the supramolecular ligand molecules.

KW - 14-3-3 protein

KW - AIE luminophores

KW - fluorescence emission

KW - guanidiniocarbonyl-pyrrole

KW - ligand binding

UR - https://www.scopus.com/pages/publications/85140892280

U2 - 10.3762/bjoc.18.137

DO - 10.3762/bjoc.18.137

M3 - Article

C2 - 36225729

AN - SCOPUS:85140892280

SN - 1860-5397

VL - 18

SP - 1322

EP - 1331

JO - Beilstein Journal of Organic Chemistry

JF - Beilstein Journal of Organic Chemistry

ER -

Computational model predicts protein binding sites of a luminescent ligand equipped with guanidiniocarbonyl-pyrrole groups

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