Fluorinated aromatic amino acids (FAAs) are promising tools when studying protein structure and dynamics by NMR spectroscopy. The incorporation FAAs in mammalian expression systems has been introduced only recently. Here, we investigate the effects of FAAs incorporation in proteins expressed in human cells, focusing on the probability of incorporation and its consequences on the 19F NMR spectra. By combining 19F NMR, direct MS and x-ray crystallography, we demonstrate that the probability of FAA incorporation is only a function of the FAA concentration in the expression medium and is a pure stochastic phenomenon. In contrast with the MS data, the x-ray structures of carbonic anhydrase II reveal that while the 3D structure is not affected, certain positions lack fluorine, suggesting that crystallization selectively excludes protein molecules featuring subtle conformational modifications. This study offers a predictive model of the FAA incorporation efficiency and provides a framework for controlling protein fluorination in mammalian expression systems.

Controlling the incorporation of fluorinated amino acids in human cells and its structural impact / Costantino, Azzurra; Pham, Lan B. T.; Barbieri, Letizia; Calderone, Vito; Ben‐Nissan, Gili; Sharon, Michal; Banci, Lucia; Luchinat, Enrico. - In: PROTEIN SCIENCE. - ISSN 0961-8368. - STAMPA. - 33:(2024), pp. e4910.1-e4910.13. [10.1002/pro.4910]

Controlling the incorporation of fluorinated amino acids in human cells and its structural impact

Costantino, Azzurra;Barbieri, Letizia;Calderone, Vito;Banci, Lucia
;
Luchinat, Enrico
2024

Abstract

Fluorinated aromatic amino acids (FAAs) are promising tools when studying protein structure and dynamics by NMR spectroscopy. The incorporation FAAs in mammalian expression systems has been introduced only recently. Here, we investigate the effects of FAAs incorporation in proteins expressed in human cells, focusing on the probability of incorporation and its consequences on the 19F NMR spectra. By combining 19F NMR, direct MS and x-ray crystallography, we demonstrate that the probability of FAA incorporation is only a function of the FAA concentration in the expression medium and is a pure stochastic phenomenon. In contrast with the MS data, the x-ray structures of carbonic anhydrase II reveal that while the 3D structure is not affected, certain positions lack fluorine, suggesting that crystallization selectively excludes protein molecules featuring subtle conformational modifications. This study offers a predictive model of the FAA incorporation efficiency and provides a framework for controlling protein fluorination in mammalian expression systems.
2024
33
1
13
Goal 3: Good health and well-being
Costantino, Azzurra; Pham, Lan B. T.; Barbieri, Letizia; Calderone, Vito; Ben‐Nissan, Gili; Sharon, Michal; Banci, Lucia; Luchinat, Enrico...espandi
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1354111
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