Not So Bioorthogonal Chemistry

Dominik Schauenburg; Tanja Weil

doi:10.1021/jacs.4c15986

Not So Bioorthogonal Chemistry

Dominik Schauenburg^*, Tanja Weil^*

^*Corresponding author for this work

Research output: Contribution to journal › (Systematic) Review article › peer-review

Abstract

The advent of bioorthogonal chemistry has transformed scientific research, offering a powerful tool for selective and noninvasive labeling of (bio)molecules within complex biological environments. This innovative approach has facilitated the study of intricate cellular processes, protein dynamics, and interactions. Nevertheless, a number of challenges remain to be addressed, including the need for improved reaction kinetics, enhanced biocompatibility, and the development of a more diverse and orthogonal set of reactions. While scientists continue to search for veritable solutions, bioorthogonal chemistry remains a transformative tool with a vast potential for advancing our understanding of biology and medicine. This Perspective offers insights into reactions commonly classified as "bioorthogonal", which, however, may not always demonstrate the desired selectivity regarding the interactions between their components and the additives or catalysts used under the reaction conditions.

Original language	English
Pages (from-to)	8049 - 8062
Number of pages	14
Journal	Journal of the American Chemical Society
Volume	147
Issue number	10
DOIs	https://doi.org/10.1021/jacs.4c15986
Publication status	Published - 12 Mar 2025

Keywords

PHOTOLABILE PROTECTING GROUPS
AZIDE-ALKYNE CYCLOADDITION
CLICK-CHEMISTRY
CYANINE DYES
SENSITIZED PHOTOOXIDATION
TRASTUZUMAB EMTANSINE
PHOTOCLICK CHEMISTRY
RECOMBINANT PROTEINS
STAUDINGER LIGATION
REACTION-MECHANISM

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title = "Not So Bioorthogonal Chemistry",

abstract = "The advent of bioorthogonal chemistry has transformed scientific research, offering a powerful tool for selective and noninvasive labeling of (bio)molecules within complex biological environments. This innovative approach has facilitated the study of intricate cellular processes, protein dynamics, and interactions. Nevertheless, a number of challenges remain to be addressed, including the need for improved reaction kinetics, enhanced biocompatibility, and the development of a more diverse and orthogonal set of reactions. While scientists continue to search for veritable solutions, bioorthogonal chemistry remains a transformative tool with a vast potential for advancing our understanding of biology and medicine. This Perspective offers insights into reactions commonly classified as {"}bioorthogonal{"}, which, however, may not always demonstrate the desired selectivity regarding the interactions between their components and the additives or catalysts used under the reaction conditions.",

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author = "Dominik Schauenburg and Tanja Weil",

year = "2025",

month = mar,

day = "12",

doi = "10.1021/jacs.4c15986",

language = "English",

volume = "147",

pages = " 8049 -- 8062",

journal = "Journal of the American Chemical Society",

issn = "0002-7863",

publisher = "American Chemical Society",

number = "10",

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TY - JOUR

T1 - Not So Bioorthogonal Chemistry

AU - Schauenburg, Dominik

AU - Weil, Tanja

PY - 2025/3/12

Y1 - 2025/3/12

N2 - The advent of bioorthogonal chemistry has transformed scientific research, offering a powerful tool for selective and noninvasive labeling of (bio)molecules within complex biological environments. This innovative approach has facilitated the study of intricate cellular processes, protein dynamics, and interactions. Nevertheless, a number of challenges remain to be addressed, including the need for improved reaction kinetics, enhanced biocompatibility, and the development of a more diverse and orthogonal set of reactions. While scientists continue to search for veritable solutions, bioorthogonal chemistry remains a transformative tool with a vast potential for advancing our understanding of biology and medicine. This Perspective offers insights into reactions commonly classified as "bioorthogonal", which, however, may not always demonstrate the desired selectivity regarding the interactions between their components and the additives or catalysts used under the reaction conditions.

AB - The advent of bioorthogonal chemistry has transformed scientific research, offering a powerful tool for selective and noninvasive labeling of (bio)molecules within complex biological environments. This innovative approach has facilitated the study of intricate cellular processes, protein dynamics, and interactions. Nevertheless, a number of challenges remain to be addressed, including the need for improved reaction kinetics, enhanced biocompatibility, and the development of a more diverse and orthogonal set of reactions. While scientists continue to search for veritable solutions, bioorthogonal chemistry remains a transformative tool with a vast potential for advancing our understanding of biology and medicine. This Perspective offers insights into reactions commonly classified as "bioorthogonal", which, however, may not always demonstrate the desired selectivity regarding the interactions between their components and the additives or catalysts used under the reaction conditions.

KW - PHOTOLABILE PROTECTING GROUPS

KW - AZIDE-ALKYNE CYCLOADDITION

KW - CLICK-CHEMISTRY

KW - CYANINE DYES

KW - SENSITIZED PHOTOOXIDATION

KW - TRASTUZUMAB EMTANSINE

KW - PHOTOCLICK CHEMISTRY

KW - RECOMBINANT PROTEINS

KW - STAUDINGER LIGATION

KW - REACTION-MECHANISM

U2 - 10.1021/jacs.4c15986

DO - 10.1021/jacs.4c15986

M3 - (Systematic) Review article

SN - 0002-7863

VL - 147

SP - 8049

EP - 8062

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 10

ER -

Not So Bioorthogonal Chemistry

Abstract

Keywords

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