This study introduces a direct fluorescence-based molecular beacon method to monitor droplet assembly in real-time, enhancing the precision of synthetic biology and mesoscale material applications. Unlike traditional imaging techniques, such as Pearson correlation from microscopic images, the direct method allows continuous quantification of dynamic droplet interactions with high sensitivity. This system utilizes single-stranded DNA (ssDNA) beacons that fluoresce upon binding with complementary ssDNA sequences in adjacent droplets, enabling the specific detection of assembly events. The ability to manipulate assembly accurately expands potential applications including the design of programmable cellular mimics, biosensors for environmental monitoring, and smart drug delivery systems that respond to specific cellular cues.
Real-Time Fluorescence-Based Method for Dynamic Quantification of Droplet Network Assembly / Faggian, Alessia; Casiraghi, Federica; Hanczyc, Martin M.. - In: ACS OMEGA. - ISSN 2470-1343. - 10:22(2025), pp. 23528-23534. [10.1021/acsomega.5c02156]
Real-Time Fluorescence-Based Method for Dynamic Quantification of Droplet Network Assembly
Faggian, AlessiaPrimo
;Casiraghi, FedericaSecondo
;Hanczyc, Martin M.
Ultimo
2025-01-01
Abstract
This study introduces a direct fluorescence-based molecular beacon method to monitor droplet assembly in real-time, enhancing the precision of synthetic biology and mesoscale material applications. Unlike traditional imaging techniques, such as Pearson correlation from microscopic images, the direct method allows continuous quantification of dynamic droplet interactions with high sensitivity. This system utilizes single-stranded DNA (ssDNA) beacons that fluoresce upon binding with complementary ssDNA sequences in adjacent droplets, enabling the specific detection of assembly events. The ability to manipulate assembly accurately expands potential applications including the design of programmable cellular mimics, biosensors for environmental monitoring, and smart drug delivery systems that respond to specific cellular cues.| File | Dimensione | Formato | |
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AFaggian_Omega.pdf
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