Shining New Light on Biological Systems: Luminescent Transition Metal Complexes for Bioimaging and Biosensing Applications

Lee, Lawrence Cho-Cheung; Lo, Kenneth Kam-Wing

doi:10.1021/acs.chemrev.3c00629

Chem. Rev.

2024

DOI: 10.1021/acs.chemrev.3c00629

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Shining New Light on Biological Systems: Luminescent Transition Metal Complexes for Bioimaging and Biosensing Applications

Lawrence Cho-Cheung Lee,

Kenneth Kam-Wing Lo

Abstract: Luminescence imaging is a powerful and versatile technique for investigating cell physiology and pathology in living systems, making significant contributions to life science research and clinical diagnosis. In recent years, luminescent transition metal complexes have gained significant attention for diagnostic and therapeutic applications due to their unique photophysical and photochemical properties. In this Review, we provide a comprehensive overview of the recent development of luminescent transition metal… Show more

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Cited by 7 publications

References 1,322 publications

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We present a highly sensitive and selective fluorescence "turn‐on" sensor for L‐histidine (His) detection in aqueous solutions utilizing a 1‐Cu2+ complex. This sensing platform employs a fluorescence‐based ligand displacement approach, featuring a meso‐(N’‐acetyl‐hydrizide)‐based BODIPY derivative (1) complexed with Cu2+. Initially highly fluorescent, the emission of 1 is selectively quenched by Cu2+ ions, forming the 1‐Cu2+ complex. The high affinity between His and Cu2+ effectively displaces 1 from the complex, restoring fluorescence. The system exhibits rapid response (within 5 minutes), excellent sensitivity (detection limit of 78 nM), operational simplicity, and a large fluorescence "turn‐on" signal. It demonstrates remarkable selectivity for His over other amino acids, with maleimide masking cysteine interference. Notably stable in complex biological matrices, the sensor has successfully quantified His in artificial urine samples. Its practical applicability extends to paper‐based test strips, offering portability and potential for real‐time His monitoring in clinical diagnostics and biological systems.

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A Copper‐Incorporated meso‐(N’‐acetyl‐hydrizide)‐BODIPY as a “Off‐On” Fluorescent Probe for Histidine

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Sharma,

Saputra

et al. 2024

Chemistry An Asian Journal

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show abstract

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Shining New Light on Biological Systems: Luminescent Transition Metal Complexes for Bioimaging and Biosensing Applications

Cited by 7 publications

References 1,322 publications

A Copper‐Incorporated meso‐(N’‐acetyl‐hydrizide)‐BODIPY as a “Off‐On” Fluorescent Probe for Histidine

A Copper‐Incorporated meso‐(N’‐acetyl‐hydrizide)‐BODIPY as a “Off‐On” Fluorescent Probe for Histidine

Recent Advances in the Synthesis and Optical Applications of Acridine-based Hybrid Fluorescent Dyes

Metallic nanoparticles unveiled: Synthesis, characterization, and their environmental, medicinal, and agricultural applications

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