Orthogonal bioorthogonal chemistries

•Mutually orthogonal bioorthogonal reactions are described.•Current challenges in compatible reaction development are outlined.•Strategies to identify and generate orthogonal reactions are presented.•Recent applications of orthogonal bioorthogonal reactions in cellular imaging and macromolecular ass...

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Veröffentlicht in:	Current opinion in chemical biology 2015-10, Vol.28, p.141-149
Hauptverfasser:	Patterson, David M, Prescher, Jennifer A
Format:	Artikel
Sprache:	eng
Schlagworte:	Alkynes - chemistry Animals Azides - chemistry Biochemistry - methods Humans Models, Molecular Molecular Imaging - methods Proteins - analysis Proteins - metabolism
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creator	Patterson, David M Prescher, Jennifer A
description	•Mutually orthogonal bioorthogonal reactions are described.•Current challenges in compatible reaction development are outlined.•Strategies to identify and generate orthogonal reactions are presented.•Recent applications of orthogonal bioorthogonal reactions in cellular imaging and macromolecular assembly are highlighted. Bioorthogonal reactions have long been used to examine individual biomolecules in living systems. Studies of multi-component networks demand not only reliable bioorthogonal chemistries, but also combinations of reactions that can be used in tandem. Such ‘orthogonal bioorthogonal’ transformations have been reported in recent years, and these chemistries are enabling new explorations into biology. This article highlights the development of orthogonal bioorthogonal reactions and their application in multi-target imaging and macromolecule assembly. Methods to tune and control orthogonal reactivity are also discussed, along with prospects for identifying new classes of compatible reactions.
doi_str_mv	10.1016/j.cbpa.2015.07.006
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subjects	Alkynes - chemistry Animals Azides - chemistry Biochemistry - methods Humans Models, Molecular Molecular Imaging - methods Proteins - analysis Proteins - metabolism
title	Orthogonal bioorthogonal chemistries
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