Chemoselective bicyclobutane-based mass spectrometric detection of biological thiols uncovers human and bacterial metabolites

Abstract: Sulfur is an essential element of life. Thiol-containing metabolites in all organisms are involved in the regulation of diverse biological processes. Especially, the microbiome produces bioactive metabolites or biological intermediates...

“…Recently, the reactivity of BCB amides was utilized for a new methodology to irreversibly capture thiol-containing metabolites, which up to now has been notoriously challenging . The chemoselectivity of BCB warheads for cysteine was furthermore corroborated in a study that found that BCB ketone 134 (Figure B) completely reacted with Boc-Cys-OEt in THF under basic conditions in less than 1 h, while protected Tyr only reached significant conversion after more than 50 h, and Lys and Ser did not react at all.…”

Emerging and Re-emerging Warheads for Targeted Covalent Inhibitors: An Update

“…Recently, the reactivity of BCB amides was utilized for a new methodology to irreversibly capture thiol-containing metabolites, which up to now has been notoriously challenging . The chemoselectivity of BCB warheads for cysteine was furthermore corroborated in a study that found that BCB ketone 134 (Figure B) completely reacted with Boc-Cys-OEt in THF under basic conditions in less than 1 h, while protected Tyr only reached significant conversion after more than 50 h, and Lys and Ser did not react at all.…”

Emerging and Re-emerging Warheads for Targeted Covalent Inhibitors: An Update

“…5 The potential energy stored in the bridging bond (66.3 kcal mol −1 (calculated)) 6 has been harnessed for applications in the design or discovery of new reactions, 7 materials science, 8 medicinal chemistry 9 and analytical chemistry. 10 Among them, BCBs carrying an electron withdrawing group at one end of the bridging bond are often used as substrates in ring-opening reactions with polar carbon 11 and heteroatom-based nucleophiles. 12 In most cases, these reactions occur exclusively at the β-position of the bridging bond, leading to the synthesis of multisubstituted cyclobutanes, as shown in the elegant studies by Gaoni, 11 a ,12 a Fox, 11 b , c Baran, 12 c , d Wipf, 12 e Aggarwal, 13 Malins, 12 f Biju, 11 e and others (Scheme 1b).…”

Photochemical α-selective radical ring-opening reactions of 1,3-disubstituted acyl bicyclobutanes with alkyl halides: modular access to functionalized cyclobutenes

“…In recent years, strain-release driven transformations have recaptured significant attention in synthetic organic chemistry, 8 materials science, 9 analytical chemistry 10 and bioconjugation. 11 As the smallest of fused carbocycles, bicyclo[1.1.0]butanes (BCBs) are highly strained (ring strain energy ∼ 66 kcal mol −1 ) yet bench-stable, synthetically versatile carbocycles.…”

C(sp²)–H cyclobutylation of hydroxyarenes enabled by silver-π-acid catalysis: diastereocontrolled synthesis of 1,3-difunctionalized cyclobutanes