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Bacterial RTX toxins and their calcium-binding sites
Lišková, Petra ; Konopásek, Ivo (advisor) ; Holoubek, Aleš (referee) ; Hof, Martin (referee)
FrpC protein produced by Neisseria meningitidis in a human host belongs to the family of bacterial RTX toxins due to the presence of RTX domain. FrpC possesses a calcium-dependent auto-catalytic cleavage activity which is localized within its 177 amino-acids long segment Self-Processing Module (SPM). As the SPM is naturally intrinsically disordered protein without bound Ca2+, the calcium binding is crucial for SPM folding which is followed by the auto-catalytic processing. The elucidation of the SPM structure may be the key step for understanding of enzymatic and biological function. The structure of folded SPM itself can be characterized only with difficulties due to the presence of flexible loop according to preliminary NMR data. The subject of this work is the description of SPM using fluorescence methods, characterization of ions binding to SPM and structural changes occurring during Ca2+ binding. In this work, the ion binding properties of SPM segment and its ion-induced folding was characterized. It was found that the dissociation constant kD of 17 μM coincided with the folding of SPM into the native calcium-bound state which occurs in the concentration range between 1 and 20 μM Ca2+. In the attempt to characterize the structure of ion binding site, the fully active single tryptophan mutants...
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Bacterial RTX toxins and their calcium-binding sites
Lišková, Petra
FrpC protein produced by Neisseria meningitidis in a human host belongs to the family of bacterial RTX toxins due to the presence of RTX domain. FrpC possesses a calcium-dependent auto-catalytic cleavage activity which is localized within its 177 amino-acids long segment Self-Processing Module (SPM). As the SPM is naturally intrinsically disordered protein without bound Ca2+, the calcium binding is crucial for SPM folding which is followed by the auto-catalytic processing. The elucidation of the SPM structure may be the key step for understanding of enzymatic and biological function. The structure of folded SPM itself can be characterized only with difficulties due to the presence of flexible loop according to preliminary NMR data. The subject of this work is the description of SPM using fluorescence methods, characterization of ions binding to SPM and structural changes occurring during Ca2+ binding. In this work, the ion binding properties of SPM segment and its ion-induced folding was characterized. It was found that the dissociation constant kD of 17 μM coincided with the folding of SPM into the native calcium-bound state which occurs in the concentration range between 1 and 20 μM Ca2+. In the attempt to characterize the structure of ion binding site, the fully active single tryptophan mutants...
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|
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Bacterial RTX toxins and their calcium-binding sites
Lišková, Petra
FrpC protein produced by Neisseria meningitidis in a human host belongs to the family of bacterial RTX toxins due to the presence of RTX domain. FrpC possesses a calcium-dependent auto-catalytic cleavage activity which is localized within its 177 amino-acids long segment Self-Processing Module (SPM). As the SPM is naturally intrinsically disordered protein without bound Ca2+, the calcium binding is crucial for SPM folding which is followed by the auto-catalytic processing. The elucidation of the SPM structure may be the key step for understanding of enzymatic and biological function. The structure of folded SPM itself can be characterized only with difficulties due to the presence of flexible loop according to preliminary NMR data. The subject of this work is the description of SPM using fluorescence methods, characterization of ions binding to SPM and structural changes occurring during Ca2+ binding. In this work, the ion binding properties of SPM segment and its ion-induced folding was characterized. It was found that the dissociation constant kD of 17 μM coincided with the folding of SPM into the native calcium-bound state which occurs in the concentration range between 1 and 20 μM Ca2+. In the attempt to characterize the structure of ion binding site, the fully active single tryptophan mutants...
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|
|
Bacterial RTX toxins and their calcium-binding sites
Lišková, Petra ; Konopásek, Ivo (advisor) ; Holoubek, Aleš (referee) ; Hof, Martin (referee)
FrpC protein produced by Neisseria meningitidis in a human host belongs to the family of bacterial RTX toxins due to the presence of RTX domain. FrpC possesses a calcium-dependent auto-catalytic cleavage activity which is localized within its 177 amino-acids long segment Self-Processing Module (SPM). As the SPM is naturally intrinsically disordered protein without bound Ca2+, the calcium binding is crucial for SPM folding which is followed by the auto-catalytic processing. The elucidation of the SPM structure may be the key step for understanding of enzymatic and biological function. The structure of folded SPM itself can be characterized only with difficulties due to the presence of flexible loop according to preliminary NMR data. The subject of this work is the description of SPM using fluorescence methods, characterization of ions binding to SPM and structural changes occurring during Ca2+ binding. In this work, the ion binding properties of SPM segment and its ion-induced folding was characterized. It was found that the dissociation constant kD of 17 μM coincided with the folding of SPM into the native calcium-bound state which occurs in the concentration range between 1 and 20 μM Ca2+. In the attempt to characterize the structure of ion binding site, the fully active single tryptophan mutants...
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