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Stability of vesicular systems using fluorescence spectroscopy techniques
Máčala, Jakub ; Venerová, Tereza (referee) ; Mravec, Filip (advisor)
This thesis is focused on possibility of studying stability and fusion of catanionic vesicles with Förster resonance energy transfer. The mainly used technique was Time-Correlated single photon counting. Firstly, excitation and emission spectra of chosen probes were measured and donor-acceptor pairs were suggested: 5-hexadecanoylaminofluorescein with Octadecyl Rhodamine B, Bodipy 493/503 with rhodamine or DiI, perylene with fluorescein, DiO with DiI. Then, time-resolved measurements of suggested pairs from environment of catanionic vesicles with different content of cholesterol were made in order to track the FRET associated with fusion of vesicles. It was found out, that it is not possible to use DiO as a donor because of it’s inefficient solubilisation into vesicles. It is also not possible for Bodipy to be used as a donor, because of it‘s excimer formation. In case of using fluorescein as a donor, it was found, that there is ongoing homo-fret between fluorescein molecules. Thanks to this, fusion was tracked by addition of unstained vesicles. It was also possible to track fusion in longer period of time. Also perylene-fluorescein pair was found to be capable of tracking the fusion, but with the exception of vesicles with content of cholesterol of 43 mol. %, tracking of fusion was possible only in short period of time.
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Stability of vesicular systems using fluorescence spectroscopy techniques
Máčala, Jakub ; Venerová, Tereza (referee) ; Mravec, Filip (advisor)
This thesis is focused on possibility of studying stability and fusion of catanionic vesicles with Förster resonance energy transfer. The mainly used technique was Time-Correlated single photon counting. Firstly, excitation and emission spectra of chosen probes were measured and donor-acceptor pairs were suggested: 5-hexadecanoylaminofluorescein with Octadecyl Rhodamine B, Bodipy 493/503 with rhodamine or DiI, perylene with fluorescein, DiO with DiI. Then, time-resolved measurements of suggested pairs from environment of catanionic vesicles with different content of cholesterol were made in order to track the FRET associated with fusion of vesicles. It was found out, that it is not possible to use DiO as a donor because of it’s inefficient solubilisation into vesicles. It is also not possible for Bodipy to be used as a donor, because of it‘s excimer formation. In case of using fluorescein as a donor, it was found, that there is ongoing homo-fret between fluorescein molecules. Thanks to this, fusion was tracked by addition of unstained vesicles. It was also possible to track fusion in longer period of time. Also perylene-fluorescein pair was found to be capable of tracking the fusion, but with the exception of vesicles with content of cholesterol of 43 mol. %, tracking of fusion was possible only in short period of time.
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