Open AccessDNA-Stabilized Silver Nanoclusters as Specific, Ratiometric Fluorescent Dopamine Sensors
Author(s) -
Jackson Travis Del Bonis-O’Donnell,
Ami Thakrar,
Jeremy Wain Hirschberg,
Daniel Vong,
Bridget N. Queenan,
Deborah Kuchnir Fygenson,
Sumita Pennathur
Publication year - 2017
Publication title -
acs chemical neuroscience
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.158
H-Index - 69
ISSN - 1948-7193
DOI - 10.1021/acschemneuro.7b00444
Subject(s) - nanoclusters , dopamine , dna , fluorescence , biosensor , nanotechnology , neurotransmitter , biophysics , chemistry , computational biology , biology , materials science , biochemistry , neuroscience , physics , receptor , quantum mechanics
Neurotransmitters are small molecules that orchestrate complex patterns of brain activity. Unfortunately, there exist few sensors capable of directly detecting individual neurotransmitters. Those sensors that do exist are either unspecific or fail to capture the temporal or spatial dynamics of neurotransmitter release. DNA-stabilized silver nanoclusters (DNA-AgNCs) are a new class of biocompatible, fluorescent nanostructures that have recently been shown to offer promise as biosensors. In this work, we identify two different DNA sequences that form dopamine-sensitive nanoclusters. We demonstrate that each sequence supports two distinct DNA-AgNCs capable of providing specific, ratiometric fluorescent sensing of dopamine concentration in vitro. DNA-Ag nanoclusters therefore offer a novel, low-cost approach to quantification of dopamine, creating the potential for real-time monitoring in vivo.
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