Introducing Azomethine Imines to Chemical Biology: Bioorthogonal Reaction with Isonitriles

Athanasios Markos; Maurice Biedermann; Johannes Heimgärtner; Adeline Schmitt; Kathrin Lang; Helma Wennemers

doi:10.1021/jacs.3c07006

Introducing Azomethine Imines to Chemical Biology: Bioorthogonal Reaction with Isonitriles

Athanasios Markos
, Maurice Biedermann
, Johannes Heimgärtner
, Adeline Schmitt
, Kathrin Lang
, Helma Wennemers

ETH Zurich

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

Azomethine imines are valuable substrates for chemical synthesis in organic solvents that often require anhydrous conditions. Here, we introduce C,N-cyclic-N′-acyl azomethine imines (AMIs) to bioorthogonal reactions in an aqueous environment. These AMIs are stable under physiological conditions and react rapidly (k₂ = 0.1-250 M^-1 s^-1, depending on pH) and chemoselectively with isonitriles in the presence of biological nucleophiles, including thiols. Live-cell imaging of cell-surface-bound isonitriles underlines the biocompatibility of the AMI-isonitrile ligation, and simultaneous one-pot triple-protein labeling demonstrates its orthogonality to commonly used bioorthogonal reactions, such as the SPAAC and iEDDA ligations.

Original language	English
Pages (from-to)	19513-19517
Number of pages	5
Journal	Journal of the American Chemical Society
Volume	145
Issue number	36
DOIs	https://doi.org/10.1021/jacs.3c07006
State	Published - 13 Sep 2023
Externally published	Yes

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title = "Introducing Azomethine Imines to Chemical Biology: Bioorthogonal Reaction with Isonitriles",

abstract = "Azomethine imines are valuable substrates for chemical synthesis in organic solvents that often require anhydrous conditions. Here, we introduce C,N-cyclic-N′-acyl azomethine imines (AMIs) to bioorthogonal reactions in an aqueous environment. These AMIs are stable under physiological conditions and react rapidly (k2 = 0.1-250 M-1 s-1, depending on pH) and chemoselectively with isonitriles in the presence of biological nucleophiles, including thiols. Live-cell imaging of cell-surface-bound isonitriles underlines the biocompatibility of the AMI-isonitrile ligation, and simultaneous one-pot triple-protein labeling demonstrates its orthogonality to commonly used bioorthogonal reactions, such as the SPAAC and iEDDA ligations.",

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AU - Markos, Athanasios

AU - Biedermann, Maurice

AU - Heimgärtner, Johannes

AU - Schmitt, Adeline

AU - Lang, Kathrin

AU - Wennemers, Helma

PY - 2023/9/13

Y1 - 2023/9/13

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AB - Azomethine imines are valuable substrates for chemical synthesis in organic solvents that often require anhydrous conditions. Here, we introduce C,N-cyclic-N′-acyl azomethine imines (AMIs) to bioorthogonal reactions in an aqueous environment. These AMIs are stable under physiological conditions and react rapidly (k2 = 0.1-250 M-1 s-1, depending on pH) and chemoselectively with isonitriles in the presence of biological nucleophiles, including thiols. Live-cell imaging of cell-surface-bound isonitriles underlines the biocompatibility of the AMI-isonitrile ligation, and simultaneous one-pot triple-protein labeling demonstrates its orthogonality to commonly used bioorthogonal reactions, such as the SPAAC and iEDDA ligations.

UR - https://www.scopus.com/pages/publications/85171202162

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JF - Journal of the American Chemical Society

IS - 36

ER -

Introducing Azomethine Imines to Chemical Biology: Bioorthogonal Reaction with Isonitriles

Abstract

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