Here, we describe protocols for three-dimensional tracking of single quantum dot-conjugated molecules with nanometer accuracy in living cells using conventional fluorescence microscopy. The technique exploits out-of-focus images of single emitters combined with an automated pattern-recognition open-source software that fits the images with proper model functions to extract the emitter coordinates. We describe protocols for targeting quantum dots to both membrane components and cytosolic proteins.
Three-Dimensional Tracking of Quantum Dot-Conjugated Molecules in Living Cells / Gardini, Lucia; Calamai, Martino; Hatakeyama, Hiroyasu; Kanzaki, Makoto; Capitanio, Marco; Pavone, Francesco Saverio. - STAMPA. - (2018), pp. 425-448. [10.1007/978-1-4939-8591-3_26]
Three-Dimensional Tracking of Quantum Dot-Conjugated Molecules in Living Cells
Gardini, Lucia;Calamai, Martino;Capitanio, Marco
;Pavone, Francesco Saverio
2018
Abstract
Here, we describe protocols for three-dimensional tracking of single quantum dot-conjugated molecules with nanometer accuracy in living cells using conventional fluorescence microscopy. The technique exploits out-of-focus images of single emitters combined with an automated pattern-recognition open-source software that fits the images with proper model functions to extract the emitter coordinates. We describe protocols for targeting quantum dots to both membrane components and cytosolic proteins.
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