Monitoring of lysozyme thermal denaturation by volumetric measurements and nanoDSF technique in the presence of N-butylurea

Abstract: The results of thermal studies of denaturation of hen egg white lysozyme (HEWL) in water and an aqueous solution of N -butylurea (BU) are presented. High-precision densimetric measurements were used to characterize and analyze the changes of the specific volume, v , during temperature elevation. The temperature of the midpoint of protein denaturation was also determined by nanoDSF technique (differential scanning fluorimetry). The densities of lysozyme solutions we… Show more

“…An alteration in the microenvironment of TRP residues is typically revealed by a change in the ratio of the emission fluorescence intensity at 350 and 330 nm; tyrosines minimally contribute to the signal. The Em 350nm /Em 330nm ratio is also a direct measure of the relative abundance of different molecular species present in the sample ( Kotov et al, 2019 ; Krakowiak et al, 2019 ). The ratio of fluorescence at 350 and 330 nm modestly increased until ∼47°C ( Figure 2A , orange curve).…”

nanoDSF: In vitro Label-Free Method to Monitor Picornavirus Uncoating and Test Compounds Affecting Particle Stability

“…An alteration in the microenvironment of TRP residues is typically revealed by a change in the ratio of the emission fluorescence intensity at 350 and 330 nm; tyrosines minimally contribute to the signal. The Em 350nm /Em 330nm ratio is also a direct measure of the relative abundance of different molecular species present in the sample ( Kotov et al, 2019 ; Krakowiak et al, 2019 ). The ratio of fluorescence at 350 and 330 nm modestly increased until ∼47°C ( Figure 2A , orange curve).…”

nanoDSF: In vitro Label-Free Method to Monitor Picornavirus Uncoating and Test Compounds Affecting Particle Stability

“…As further confirmation of the sample folding status, the thermal stability of BbHtrA S/A in top refolding conditions was analyzed using nanoDSF, an orthogonal DSF method that monitors shifts in both amino-acid autofluorescence and in backscattering aggregation signals during a thermal ramp (Krakowiak, Krajewska et al 2019, Magnusson, Szekrenyi et al 2019). While each condition produced strong peaks at ~65 °C, in agreement with T m and T agg measurements, the MES buffer system was chosen to advance as it shows the sharpest, highest peak in the backscattering aggregation curve (Fig 4D).…”

“…The first derivative of the thermal unfolding curves of the top four selected buffers show single, sharp peaks, unlike less folded or unfolded populations in suboptimal buffer conditions (Fig 2C, green curves are optimal conditons, yellow are suboptimal). The thermal stability of BbHtrA S/A in top refolding conditions was further analyzed using nanoDSF, an orthogonal differential scanning fluorimetry method that monitors shifts in both amino-acid autofluorescence and in backscattering aggregation signals during a thermal ramp [25, 26]. Following standard nanoDSF experimental design, 5 μL of refolded protein was loaded into standard capillaries and onto the capillary tray of a Prometheus NT.48 instrument (Nanotemper) and run using a 5.0 °C/min thermal ramp at 50% LED excitation.…”

Application of biophysical methods for improved protein production and characterization: a case study on an HtrA-family bacterial protease

“…The volume of the protein shows two regimes that can be associated with the two-state model and are separated by the transition temperature. [10][11][12] Unfolding behavior is not unique to proteins; exible homopolymer chains with sufficiently short-range interactions in the absence of any solvent also exhibit the folded/unfolded behavior 13 associated with low-entropy and high entropy states separated by a phase transition temperature (unfolding temperature). 14 In another study, this temperature was found to be close to the maximum in the heat capacity.…”

“…The volume of the protein shows two regimes that can be associated with the two-state model and are separated by the transition temperature. 10–12 …”

Cation folding and the thermal stability limit of the ionic liquid [BMIM⁺][BF₄⁻] under total vacuum