Recent progress in metal-based molecular probes for optical bioimaging and biosensing

Biological imaging and biosensing from subcellular/cellular level to whole body have enabled non-invasive visualisation of molecular events during various biological and pathological processes, giving great contributions to the rapid and impressive advances in chemical biology, drug discovery, disea...

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Bibliographic Details
Published in:Current opinion in chemical biology 2022-02, Vol.66, p.102097-102097, Article 102097
Main Authors: Ning, Yingying, Jin, Guo-Qing, Wang, Meng-Xin, Gao, Song, Zhang, Jun-Long
Format: Article
Language:English
Subjects:
Bioimaging
Biosensing
Biosensing Techniques
Diagnostic Imaging
Lanthanides
Lanthanoid Series Elements
Luminescence
Molecular probe
Molecular Probes
Transition Elements
Transition metals
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Summary:Biological imaging and biosensing from subcellular/cellular level to whole body have enabled non-invasive visualisation of molecular events during various biological and pathological processes, giving great contributions to the rapid and impressive advances in chemical biology, drug discovery, disease diagnosis and prognosis. Optical imaging features a series of merits, including convenience, high resolution, good sensitivity, low cost and the absence of ionizing radiation. Among different luminescent probes, metal-based molecules offer unique promise in optical bioimaging and biosensing in vitro and in vivo, arising from their small sizes, strong luminescence, large Stokes shifts, long lifetimes, high photostability and tunable toxicity. In this review, we aim to highlight the design of metal-based molecular probes from the standpoint of synthetic chemistry in the last 2 years for optical imaging, covering d-block transition metal and lanthanide complexes and multimodal imaging agents.
ISSN:1367-5931
1879-0402
DOI:10.1016/j.cbpa.2021.102097