Precise control over specific functions in the time domain is ubiquitous in biological systems. Here, we demonstrate time-gated fluorescence signalling under dissipative conditions exploiting an ATP-fueled self-assembly process. A temporal ATP-concentration gradient allows the system to pass through three states, among which only the intermediate state generates a fluorescent signal from a hydrophobic dye entrapped in the assemblies. The system can be reactivated by adding a new batch of ATP. The results indicate a strategy to rationally programme the temporal emergence of functions in complex chemical systems. This journal is
Time-gated fluorescence signalling under dissipative conditions
Chen R.;Maiti S.;Fortunati I.;Ferrante C.;Gabrielli L.;Das K.;Prins L. J.
2020
Abstract
Precise control over specific functions in the time domain is ubiquitous in biological systems. Here, we demonstrate time-gated fluorescence signalling under dissipative conditions exploiting an ATP-fueled self-assembly process. A temporal ATP-concentration gradient allows the system to pass through three states, among which only the intermediate state generates a fluorescent signal from a hydrophobic dye entrapped in the assemblies. The system can be reactivated by adding a new batch of ATP. The results indicate a strategy to rationally programme the temporal emergence of functions in complex chemical systems. This journal is
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