And was previously reported to be largely devoid of 520-26-3 web structure [14]. Pyruvate kinase forms a 240 kDa complex with somewhat higher b-sheet content [28]. The mostly b-sheet Sortase A protein was amenable to FASTpp analysis as well. This comparison of folds suggests that most folded domains without large internal disordered linkers may be amenable to analysis by FASTpp. Conversely, proteins containing large internal disordered regions are expected to be Salmon calcitonin custom synthesis cleaved by default ?unless they fold for instance by a coupled folding and bindingFast Proteolysis Assay FASTppFigure 10. FASTpp is suitable for a wide range of substrates. Representative snapshots from crystallographic studies on the used model proteins. BSA is a-helically folded (pdb identifier 1E7I), MBP has some b-sheets (pdb identifier 1JWY, 1ANF), PK contains more b-sheets (pdb identifier 1F3W), Sortase A mostly b-sheets (pdb identifier 1T2O) and folded Cytochrome C in presence of heme contains extended loops (pdb identifier 1AKK) [27,28,34,46]. The PONDR-FIT predictions are shown in black frames in a simplified view with black indicating a score for intrinsic disorder above 0.5 and background color scores from 0 to 0.5. doi:10.1371/journal.pone.0046147.gmechanism in vivo [29]. Accurate disorder predictions for watersoluble proteins such as PONDR-Fit might therefore be useful to preselect suitable candidate proteins for FASTpp assays and guide the data interpretation.DiscussionWe established FASTpp as a biophysical tool to monitor structural protein stability for both isolated proteins and in lysate. We observed high intrinsic protease activity over a large temperature range from physiological temperatures to 80uC in agreement with previous related studies [11,30,31]. An even more thermostable TL variant may extend FASTpp to extremely thermostable substrates [32]. We investigated possible applications of FASTpp for interactions of a folded protein with ligand in either presence or absence of cellular lysate. We obtained an about 10uC higher temperature of unfolding for the ligand saturated MBP in both cases. This agrees qualitatively with previous DSC studies, where MBP unfolded at 55uC and 65uC in maltose-bound form at a heating rate of 1uC/min [16]. It also agrees qualitatively with our data obtained by intrinsic protein fluorescence. The differences of absolute values are likely due to different timescales of heating and the fact that unfolded protein is removed from the equilibrium in the FASTpp assay. Presence of lysate had a stabilising effect on apoMBP as monitored by FASTpp while in case of RNAse H stability analysis by Pulse Proteolysis, diluted lysate did not affect the protein stability, possibly due to dilution by urea [1]. Can we determine absolute thermal melting points (Tm) of proteins by FASTpp? The determination of absolute Tm values requires equilibrium conditions, which can be achieved in particular by calorimetric methods [11]. In FASTpp, the unfolding temperature values depend on the experimental conditions such as temperature range, heating rates, protein concentration and protease susceptibility of the protein of interest. While this prohibits determination of absolute Tm values, FASTpp accurately determines the relative stability. This allows the precise relative stability analysis of point mutations, ligand binding and different environments including cell lysates [33?0]. What method should be chosen for which application? Fluorescence is widely used due to its.And was previously reported to be largely devoid of structure [14]. Pyruvate kinase forms a 240 kDa complex with somewhat higher b-sheet content [28]. The mostly b-sheet Sortase A protein was amenable to FASTpp analysis as well. This comparison of folds suggests that most folded domains without large internal disordered linkers may be amenable to analysis by FASTpp. Conversely, proteins containing large internal disordered regions are expected to be cleaved by default ?unless they fold for instance by a coupled folding and bindingFast Proteolysis Assay FASTppFigure 10. FASTpp is suitable for a wide range of substrates. Representative snapshots from crystallographic studies on the used model proteins. BSA is a-helically folded (pdb identifier 1E7I), MBP has some b-sheets (pdb identifier 1JWY, 1ANF), PK contains more b-sheets (pdb identifier 1F3W), Sortase A mostly b-sheets (pdb identifier 1T2O) and folded Cytochrome C in presence of heme contains extended loops (pdb identifier 1AKK) [27,28,34,46]. The PONDR-FIT predictions are shown in black frames in a simplified view with black indicating a score for intrinsic disorder above 0.5 and background color scores from 0 to 0.5. doi:10.1371/journal.pone.0046147.gmechanism in vivo [29]. Accurate disorder predictions for watersoluble proteins such as PONDR-Fit might therefore be useful to preselect suitable candidate proteins for FASTpp assays and guide the data interpretation.DiscussionWe established FASTpp as a biophysical tool to monitor structural protein stability for both isolated proteins and in lysate. We observed high intrinsic protease activity over a large temperature range from physiological temperatures to 80uC in agreement with previous related studies [11,30,31]. An even more thermostable TL variant may extend FASTpp to extremely thermostable substrates [32]. We investigated possible applications of FASTpp for interactions of a folded protein with ligand in either presence or absence of cellular lysate. We obtained an about 10uC higher temperature of unfolding for the ligand saturated MBP in both cases. This agrees qualitatively with previous DSC studies, where MBP unfolded at 55uC and 65uC in maltose-bound form at a heating rate of 1uC/min [16]. It also agrees qualitatively with our data obtained by intrinsic protein fluorescence. The differences of absolute values are likely due to different timescales of heating and the fact that unfolded protein is removed from the equilibrium in the FASTpp assay. Presence of lysate had a stabilising effect on apoMBP as monitored by FASTpp while in case of RNAse H stability analysis by Pulse Proteolysis, diluted lysate did not affect the protein stability, possibly due to dilution by urea [1]. Can we determine absolute thermal melting points (Tm) of proteins by FASTpp? The determination of absolute Tm values requires equilibrium conditions, which can be achieved in particular by calorimetric methods [11]. In FASTpp, the unfolding temperature values depend on the experimental conditions such as temperature range, heating rates, protein concentration and protease susceptibility of the protein of interest. While this prohibits determination of absolute Tm values, FASTpp accurately determines the relative stability. This allows the precise relative stability analysis of point mutations, ligand binding and different environments including cell lysates [33?0]. What method should be chosen for which application? Fluorescence is widely used due to its.
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