Questioning the Affinity of Electrophilic Astatine for Sulfur-containing Compounds: Unexpected Bindings Revealed

The affinity of AtO+ for around 20 model ligands (L), carrying functionalized oxygen, sulfur, and nitrogen atoms, has been assessed through a combined experimental and theoretical methodology. Significant equilibrium constants (K L ∼ 104) have been measured for sulfur-containing compounds, in agreem...

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Veröffentlicht in:	Inorganic chemistry 2020-10, Vol.59 (19), p.13923-13932
Hauptverfasser:	Bassal, Fadel, Champion, Julie, Pardoue, Sylvain, Seydou, Mahamadou, Sabatié-Gogova, Andrea, Deniaud, David, Questel, Jean-Yves Le, Montavon, Gilles, Galland, Nicolas
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Schlagworte:	Chemical Sciences Radiochemistry
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container_title	Inorganic chemistry
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creator	Bassal, Fadel Champion, Julie Pardoue, Sylvain Seydou, Mahamadou Sabatié-Gogova, Andrea Deniaud, David Questel, Jean-Yves Le Montavon, Gilles Galland, Nicolas
description	The affinity of AtO+ for around 20 model ligands (L), carrying functionalized oxygen, sulfur, and nitrogen atoms, has been assessed through a combined experimental and theoretical methodology. Significant equilibrium constants (K L ∼ 104) have been measured for sulfur-containing compounds, in agreement with the previously highlighted, relatively stable radiolabeling of SH-containing proteins with 211At. Conversely, no interaction occurs in the aqueous phase for their oxygenated counterparts, but higher affinities (K L > 106) have been determined for nitrogen-based ligands, including aromatic nitrogen heterocycles. The quantum mechanical calculations definitively ruled out any rationale based on either the metallic character of astatine or its guessed softness; the favored interactions all involve specifically the oxygen atom of AtO+, leading to the formation of covalent O–S or O–C single bonds.
doi_str_mv	10.1021/acs.inorgchem.0c01553
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title	Questioning the Affinity of Electrophilic Astatine for Sulfur-containing Compounds: Unexpected Bindings Revealed
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