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The development of new tyrosin binding cross-linkers for structural characterization of proteins
Karpíšek, Michael ; Kukačka, Zdeněk (advisor) ; Talacko, Pavel (referee)
Proteins are cornerstones of all living organisms. A lot of energy is invested in studying structures of proteins, because their function is determined by their structure. One of the techniques used to access the structure of proteins is chemical cross-linking in combination with mass spectrometry. In spite of their number, most of the cross-linkers bind few aminoacids such as lysine, cysteine or glutamic and aspartic acid. In our work we tried to develop tyrosin-binding cross-linkers. Using top down and bottom up approaches we studied the influence of N-hydroxysuccinimide esters and imidazole on the reactivity of the cross-linker in different pH on model proteins. According to the acquired data there is a difference in overal reactivity and specifity between the used cross-linkers. The cross-linkers containing imidazole modified tyrosine more although the difference was small and binding of tyrosine was not selective. [IN CZECH]
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The use of protein radical footprinting by Togni reagents in structural biology
Fojtík, Lukáš ; Kukačka, Zdeněk (advisor) ; Kolenko, Petr (referee)
Structural proteomic methods such as an ion mobility mass spectrometry, chemical cross- linking or covalent labeling have been established as powerful tools for structural studies of biomolecules in general. These methods have significantly contributed to the expansion of our knowledge about biomolecular functions, their dynamics and molecular interactions and therefore led to the understanding of important biological processes occurring in a cell. We decided to spread these methods and we developed a new radical labeling technique relaying on Fluor-alkyl radicals that does not require a laser dissociation pf hydrogen peroxide. We exploited the potential of Togni reagents to form Fluor-alkyl radicals by reducing agent under native conditions. The induction of Fluor-alkyl radicals was triggered by ascorbic acid and the labeling pulse was stopped by tryptophan. The modified proteins were analyzed by top down or bottom up approach using high resolution mass spectrometry. In case of top down approach, several fragmentation techniques (CID-ECD, ETD) were tested for protein analysis while in case of bottom up approach the analyzed proteins were digested by trypsin and separated on reverse phase column online coupled to mass spectrometer. As the model biomolecules we chose a 20 proteinogenic amino acids...
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The use of protein radical footprinting by Togni reagents in structural biology
Fojtík, Lukáš ; Kukačka, Zdeněk (advisor) ; Kolenko, Petr (referee)
Structural proteomic methods such as an ion mobility mass spectrometry, chemical cross- linking or covalent labeling have been established as powerful tools for structural studies of biomolecules in general. These methods have significantly contributed to the expansion of our knowledge about biomolecular functions, their dynamics and molecular interactions and therefore led to the understanding of important biological processes occurring in a cell. We decided to spread these methods and we developed a new radical labeling technique relaying on Fluor-alkyl radicals that does not require a laser dissociation pf hydrogen peroxide. We exploited the potential of Togni reagents to form Fluor-alkyl radicals by reducing agent under native conditions. The induction of Fluor-alkyl radicals was triggered by ascorbic acid and the labeling pulse was stopped by tryptophan. The modified proteins were analyzed by top down or bottom up approach using high resolution mass spectrometry. In case of top down approach, several fragmentation techniques (CID-ECD, ETD) were tested for protein analysis while in case of bottom up approach the analyzed proteins were digested by trypsin and separated on reverse phase column online coupled to mass spectrometer. As the model biomolecules we chose a 20 proteinogenic amino acids...
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