Fluorescent nanoparticles as tools in ecology and physiology

Fluorescent nanoparticles as tools in ecology and physiology

ABSTRACT Fluorescent nanoparticles (FNPs) have been widely used in chemistry and medicine for decades, but their employment in biology is relatively recent. Past reviews on FNPs have focused on chemical, physical or medical uses, making the extrapolation to biological applications difficult. In biol...

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Bibliographic Details
Published in:Biological reviews of the Cambridge Philosophical Society Vol. 96; no. 5; pp. 2392 - 2424
Main Authors: Färkkilä, Sanni M. A., Kiers, E. Toby, Jaaniso, Raivo, Mäeorg, Uno, Leblanc, Roger M., Treseder, Kathleen K., Kang, Zhenhui, Tedersoo, Leho
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-10-2021
Subjects:
alternative quantum dots
Biocompatibility
bioimaging
Biological activity
Biological research
Biology
biosensing
Biosensors
Cadmium
Ecology
Fluorescence
fluorescence techniques
fluorescent carbon nanoparticles
fluorescent labelling
molecular tracking
Nanoparticles
nanoparticles in biology
nanotechnology
Physiology
Quantum dots
Reliability analysis
Toxicity
Tracking
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Summary:ABSTRACT Fluorescent nanoparticles (FNPs) have been widely used in chemistry and medicine for decades, but their employment in biology is relatively recent. Past reviews on FNPs have focused on chemical, physical or medical uses, making the extrapolation to biological applications difficult. In biology, FNPs have largely been used for biosensing and molecular tracking. However, concerns over toxicity in early types of FNPs, such as cadmium‐containing quantum dots (QDs), may have prevented wide adoption. Recent developments, especially in non‐Cd‐containing FNPs, have alleviated toxicity problems, facilitating the use of FNPs for addressing ecological, physiological and molecule‐level processes in biological research. Standardised protocols from synthesis to application and interdisciplinary approaches are critical for establishing FNPs in the biologists’ tool kit. Here, we present an introduction to FNPs, summarise their use in biological applications, and discuss technical issues such as data reliability and biocompatibility. We assess whether biological research can benefit from FNPs and suggest ways in which FNPs can be applied to answer questions in biology. We conclude that FNPs have a great potential for studying various biological processes, especially tracking, sensing and imaging in physiology and ecology.
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ISSN:1464-7931
1469-185X
DOI:10.1111/brv.12758