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Mechanistic Analysis of Bioorthogonal Double Strain-Promoted Alkyne–Nitrone Cycloadditions Involving Dibenzocyclooctadiyne

硝基 生物正交化学 化学 环加成 组合化学 反应性(心理学) 炔烃 叠氮化物 反应速率常数 有机化学 点击化学 动力学 催化作用 病理 替代医学 物理 医学 量子力学
作者
Didier A. Bilodeau,Kaitlyn D. Margison,Shadi Sedghi Masoud,Masaya Nakajima,John Paul Pezacki
出处
期刊:ACS Chemical Biology [American Chemical Society]
卷期号:18 (11): 2430-2438
标识
DOI:10.1021/acschembio.3c00491
摘要

The reactions of nitrones with cyclooctadiynes were studied to establish the relative rates of sequential reactions and to determine the limits and scope of this bioorthogonal chemistry. We have established the second-order rate constants for the consecutive additions of a variety of nitrones onto diyne and studied the structure-activity relationships via Hammett plots. Results show that the addition of the second nitrone to the monointermediate occurs significantly faster than the first, with both reactions being faster than analogous reactions with azides. Computational chemistry supports these observations. The rate of second addition increases with electron-deficient nitrones, as demonstrated by a large rho value of 2.08, suggesting that the reaction rate can be controlled by nitrone selectivity. To further investigate the kinetic parameters of the reaction, dinitrone monomers containing cyclic and diaryl-nitrones were designed for use in oligomerization applications. Oligomerization was used as a probe to test the limits of the reactivity and attempt to isolate monocycloaddition products. The oligomer formed from a cyclic nitrone reacts faster, and detailed MALDI mass spectrometry analysis shows that monoaddition products exist only transiently and are not isolatable. These studies inform on the scope and limits of this chemistry in a variety of applications. We successfully demonstrated bacterial cell wall labeling using heterogeneous dual cycloadditions involving nitrone and azide dipoles, where the nitrone was the faster reacting partner on the bacterial cell surface.
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