Conferring Phosphorogenic Properties on Iridium(III)-Based Bioorthogonal Probes through Modification with a Nitrone Unit

Lawrence Cho-Cheung Lee; Jonathan Chun-Wai Lau; Hua-Wei Liu; Kenneth Kam-Wing Lo

doi:10.1002/ange.201509396

Conferring Phosphorogenic Properties on Iridium(III)-Based Bioorthogonal Probes through Modification with a Nitrone Unit

Lawrence Cho-Cheung Lee, Jonathan Chun-Wai Lau, Hua-Wei Liu, Kenneth Kam-Wing Lo^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

Abstract

The use of bioorthogonal probes that display fluorogenic or phosphorogenic properties is advantageous to the labeling and imaging of biomolecules in live cells and organisms. Herein we present the design of three iridium(III) complexes containing a nitrone moiety as novel phosphorogenic bioorthogonal probes. These probes were non‐emissive owing to isomerization of the C=N group but showed significant emission enhancement upon cycloaddition reaction with strained cyclooctynes. Interestingly, the connection of the nitrone ligand to the cationic iridium(III) center led to accelerated reaction kinetics. These nitrone complexes were also identified as phosphorogenic bioorthogonal labels and imaging reagents for cyclooctyne‐modified proteins. These findings contribute to the development of phosphorogenic bioorthogonal probes and imaging reagents.

Original language	English
Pages (from-to)	1058-1061
Journal	Angewandte Chemie
Volume	128
Issue number	3
Online published	30 Nov 2015
DOIs	https://doi.org/10.1002/ange.201509396
Publication status	Published - 18 Jan 2016

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title = "Conferring Phosphorogenic Properties on Iridium(III)-Based Bioorthogonal Probes through Modification with a Nitrone Unit",

abstract = "The use of bioorthogonal probes that display fluorogenic or phosphorogenic properties is advantageous to the labeling and imaging of biomolecules in live cells and organisms. Herein we present the design of three iridium(III) complexes containing a nitrone moiety as novel phosphorogenic bioorthogonal probes. These probes were non‐emissive owing to isomerization of the C=N group but showed significant emission enhancement upon cycloaddition reaction with strained cyclooctynes. Interestingly, the connection of the nitrone ligand to the cationic iridium(III) center led to accelerated reaction kinetics. These nitrone complexes were also identified as phosphorogenic bioorthogonal labels and imaging reagents for cyclooctyne‐modified proteins. These findings contribute to the development of phosphorogenic bioorthogonal probes and imaging reagents.",

author = "Lee, {Lawrence Cho-Cheung} and Lau, {Jonathan Chun-Wai} and Hua-Wei Liu and Lo, {Kenneth Kam-Wing}",

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T1 - Conferring Phosphorogenic Properties on Iridium(III)-Based Bioorthogonal Probes through Modification with a Nitrone Unit

AU - Lee, Lawrence Cho-Cheung

AU - Lau, Jonathan Chun-Wai

AU - Liu, Hua-Wei

AU - Lo, Kenneth Kam-Wing

PY - 2016/1/18

Y1 - 2016/1/18

N2 - The use of bioorthogonal probes that display fluorogenic or phosphorogenic properties is advantageous to the labeling and imaging of biomolecules in live cells and organisms. Herein we present the design of three iridium(III) complexes containing a nitrone moiety as novel phosphorogenic bioorthogonal probes. These probes were non‐emissive owing to isomerization of the C=N group but showed significant emission enhancement upon cycloaddition reaction with strained cyclooctynes. Interestingly, the connection of the nitrone ligand to the cationic iridium(III) center led to accelerated reaction kinetics. These nitrone complexes were also identified as phosphorogenic bioorthogonal labels and imaging reagents for cyclooctyne‐modified proteins. These findings contribute to the development of phosphorogenic bioorthogonal probes and imaging reagents.

AB - The use of bioorthogonal probes that display fluorogenic or phosphorogenic properties is advantageous to the labeling and imaging of biomolecules in live cells and organisms. Herein we present the design of three iridium(III) complexes containing a nitrone moiety as novel phosphorogenic bioorthogonal probes. These probes were non‐emissive owing to isomerization of the C=N group but showed significant emission enhancement upon cycloaddition reaction with strained cyclooctynes. Interestingly, the connection of the nitrone ligand to the cationic iridium(III) center led to accelerated reaction kinetics. These nitrone complexes were also identified as phosphorogenic bioorthogonal labels and imaging reagents for cyclooctyne‐modified proteins. These findings contribute to the development of phosphorogenic bioorthogonal probes and imaging reagents.

U2 - 10.1002/ange.201509396

DO - 10.1002/ange.201509396

M3 - RGC 21 - Publication in refereed journal

SN - 0044-8249

VL - 128

SP - 1058

EP - 1061

JO - Angewandte Chemie

JF - Angewandte Chemie

IS - 3

ER -

Conferring Phosphorogenic Properties on Iridium(III)-Based Bioorthogonal Probes through Modification with a Nitrone Unit

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