Author: Abraham G. Beyene; Kristen Delevich; Jackson Travis Del Bonis-O’Donnell; David J. Piekarski; Wan Chen Lin; A. Wren Thomas; Sarah J. Yang; Polina Kosillo; Darwin Yang; Linda Wilbrecht; Markita P. Landry
Title: Imaging Striatal Dopamine Release Using a Non-Genetically Encoded Near-Infrared Fluorescent Catecholamine Nanosensor Document date: 2018_7_3
ID: n75siuwb_24_1
Snippet: in species where gene delivery and protein expression is too difficult, time consuming, or undesirable. Finally, nanosecond-scale binding kinetics and the nanoscale dimensions of nIRNS 48 , are likely to enable generation of nanosensors with improved temporal and spatial resolution. In sum, nIRCats are versatile catecholamine probes amenable to multiplexing with existing tools for concurrent investigation of dopaminergic neuromodulation with othe.....
Document: in species where gene delivery and protein expression is too difficult, time consuming, or undesirable. Finally, nanosecond-scale binding kinetics and the nanoscale dimensions of nIRNS 48 , are likely to enable generation of nanosensors with improved temporal and spatial resolution. In sum, nIRCats are versatile catecholamine probes amenable to multiplexing with existing tools for concurrent investigation of dopaminergic neuromodulation with other core mechanisms of brain function.
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