Informace o kvalifikační práci Mechanism of Energy Conversion in ATP Driven Molecular Machines: Development of Single-molecule Techniques for Observation of Conformational Changes in Sec Translocon during Protein Transport
- Pro tuto VŠKP nejsou definovány žádné údaje, u kterých by bylo požadováno jejich vyplnění.
Hlavní téma
Mechanism of energy conversion in ATP driven molecular machines: Development of single-molecule techniques for observation of conformational changes in sec translocon during protein transport
Hlavní téma v angličtině
Mechanism of energy conversion in ATP driven molecular machines: Development of single-molecule techniques for observation of conformational changes in sec translocon during protein transport
Název dle studenta
Mechanism of Energy Conversion in ATP Driven Molecular Machines: Development of Single-molecule Techniques for Observation of Conformational Changes in Sec Translocon during Protein Transport
Název dle studenta v angličtině
Mechanism of Energy Conversion in ATP Driven Molecular Machines: Development of Single-molecule Techniques for Observation of Conformational Changes in Sec Translocon during Protein Transport
Souběžný název
Mekanizmi i konvertimit energjetik ne makinerite molekulare te asistuara nga ATP: Zhvillimi i teknikave nje-molekulare per observim te ndryshimeve konfiguracionale ne Sec Translokon pergjate transportimit proteinik
Podnázev
Optimization and application of single molecule detection techniques for the investigation of the SecA conformational dynamics.
Optimization and application of single-molecule techniques, respectively smFRET ALEX confocal microscopy with epi-fluorescence configuration, for examination of conformational space of the SecA in simulated biological conditions.
Anotace v angličtině
Optimization and application of single-molecule techniques, respectively smFRET ALEX confocal microscopy with epi-fluorescence configuration, for examination of conformational space of the SecA in simulated biological conditions.
Optimization and application of single-molecule techniques, respectively smFRET ALEX confocal microscopy with epi-fluorescence configuration, for examination of conformational space of the SecA in simulated biological conditions.
Anotace v angličtině
Optimization and application of single-molecule techniques, respectively smFRET ALEX confocal microscopy with epi-fluorescence configuration, for examination of conformational space of the SecA in simulated biological conditions.
Prof. Grubhoffer welcome Mr. Sulejmani, members of the commission, and the audience. All members of the commission were present. The student introduced the studied moleculr complex and the methods used in the study such as SM-FRET and FCS. Then, he presented his results and discussed them. Uqestions from the commission followed, where he was not able to answer completely, as part of the results were obtained by the supervisor. The participation of the student on the experiments was specified; this information is partly missing from the bachelor thesis.