Palladium-mediated chemistry in living cells

•Bioorthogonal strategies for tagging biomolecules catalysed by palladium.•Pd-mediated intracellular C–C bond formation inside cells.•Pd-mediated surface modification of bacteria.•Modulation of protein activity in cells mediated by Pd. Bioorthogonal metal catalysed chemistry is the application of bi...

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Bibliographic Details
Published in:Current opinion in chemical biology 2014-08, Vol.21, p.128-135
Main Authors: Chankeshwara, Sunay V, Indrigo, Eugenio, Bradley, Mark
Format: Article
Language:English
Subjects:
Biochemistry - methods
Catalysis
Cell Survival
Humans
Palladium - metabolism
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Summary:•Bioorthogonal strategies for tagging biomolecules catalysed by palladium.•Pd-mediated intracellular C–C bond formation inside cells.•Pd-mediated surface modification of bacteria.•Modulation of protein activity in cells mediated by Pd. Bioorthogonal metal catalysed chemistry is the application of biocompatible transition metals to catalyse conventional synthetic organic chemistry reactions within a biological environment. Over the past decade, metals which were previously restricted to conventional organic synthesis have begun to be used in an increasing number of biological settings. This has been dominated by copper mediated catalysis of the azide-alkyne Huisgen cycloaddition (1,3-dipolar addition) chemistry but other, less toxic, metals such as palladium are now beginning to establish themselves in the chemical biology/chemical medicine arenas. The potential of palladium mediated chemistry in living systems now ranges from protein modifications to in cellulo synthesis or activation of drugs and suggests that palladium chemistry has the potential to become a powerful tool. In this review we highlight recent advances in Pd-mediated reactions in living systems.
ISSN:1367-5931
1879-0402
DOI:10.1016/j.cbpa.2014.07.007