Characterization of the Unfolding Pathway of Hen Egg White Lysozyme

Laurents, Douglas V.; Rl, Baldwin

doi:10.1021/bi962198z

Cited by 56 publications

(60 citation statements)

References 19 publications

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“…These values gave a sigmoidal plot that was analyzed using the Hill equation (Figure 2B and 3B) (12). Interestingly, we have found that our plots of unfolding rates for HEWL are similar to those by Laurents and Baldwin, whose study used tryptophan fluorescence; however, comparable rates of unfolding could not be obtained (13). …”

Section: Resultssupporting

confidence: 75%

Real-Time Protein Unfolding: A Method for Determining the Kinetics of Native Protein Denaturation using a Quantitative Real-Time Thermocycler

Biggar

Dawson²,

Storey³

2012

BioTechniques

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Protein stability can be monitored by many different techniques. However, these protocols are often lengthy, consume large amounts of protein, and require expensive and specialized instruments. Here we present a new protocol to analyze protein unfolding kinetics using a quantified real-time thermocycler. This technique enables the analysis of a wide range of denaturants (and their interactions with temperature change) on protein stability in a multi-well platform, where samples can be run in parallel under virtually identical conditions and with highly sensitive detection. Using this set-up, researchers can evaluate the half-maximal rate of protein denaturation (K(nd)), maximum rate of denaturation (D(max)), and the cooperativity of individual denaturants in protein unfolding (µ-coefficient). Both lysozyme and hexokinase are used as model proteins and urea as a model denaturant to illustrate this new method and the kinetics of protein unfolding that it provides. Overall, this method allows the researcher to explore a large number of denaturants, at either constant or variable temperatures, within the same assay, providing estimates of denaturation kinetics that have been previously inaccessible.

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Section: Resultssupporting

confidence: 75%

Real-Time Protein Unfolding: A Method for Determining the Kinetics of Native Protein Denaturation using a Quantitative Real-Time Thermocycler

Biggar

Dawson²,

Storey³

2012

BioTechniques

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“…These results were also supported by a previous study of Takai et al ., who treated lysozyme with He/O 2 gas low-frequency plasma and observed fluorescence quenching. As suggested by a previous study 30 , the majority of the fluorescence emission was due to Trp62 and Trp108 in the native lysozyme structure, with a small contribution to the fluorescence spectra from residues other than Trp that were located near methionine sulphurs or cysteine 39 .…”

Section: Discussionmentioning

confidence: 51%

Structural and functional analysis of lysozyme after treatment with dielectric barrier discharge plasma and atmospheric pressure plasma jet

Choi

Attri

Lee

et al. 2017

Sci Rep

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The variation in the biological function of proteins plays an important role in plasma medicine and sterilization. Several non-thermal plasma sources with different feeding gases are used worldwide for plasma treatment, including dielectric barrier discharge (DBD) and atmospheric-pressure plasma jet (APPJ) as the most commonly used sources. Therefore, in the present work, we used both DBD and APPJ plasma sources with N2 and air as feeding gases to evaluate the effects on the structural, thermodynamic, and activity changes of enzymes. In the current work, we used lysozyme as a model enzyme and verified the structural changes using circular dichroism (CD), fluorescence, and X-ray crystallography. In addition, we investigated the lysozyme thermodynamics using CD thermal analysis and changes in the B-factor from X-ray crystallography. The results showed that lysozyme activity decreased after the plasma treatment. From these analyses, we concluded that N2-feeding gas plasma disturbs the structure and activity of lysozyme more than Air feeding gas plasma in our experimental studies. This study provides novel fundamental information on the changes to enzymes upon plasma treatment, which has been absent from the literature until now.

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“…Given the NMR results, this behavior would be most consistent with the dominant unfolding event being a cooperative unfolding of the -domain, perhaps involving some R-domain residues beyond the core of NMR reporters we examined. Previous investigators have found that the R-domain of lysozyme folds first (Dobson et al, 1994), is more kinetically stable to urea denaturation (Laurents and Baldwin, 1997), and is more thermodynamically stable in 50% trifluoroethanol (Buck et al, 1993). Further, we have found that the R-domain is more stable upon exposure to hydrophobic reversed-phase chromatography surfaces (McNay and Fernandez, 1999).…”

Section: Resultsmentioning

confidence: 99%

Unfolding and Conformational Distributions during Protein Precipitation

Chang¹,

Tobler²,

Fernandez³

2001

Biotechnology Progress

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The association of misfolded proteins, or aggregation, is a critical problem in a number of human diseases as well during the expression, refolding, formulation, and delivery of therapeutic proteins. In this study, we investigate lysozyme precipitation with hydrogen exhange using nuclear magnetic resonance (NMR) and mass spectrometry (MS). We show that MS can reveal the presence of conformational distributions, albeit without the detailed structural information afforded by NMR. Further, we find that increases in precipitant concentration alter the structure and composition of precipitates. The selective unfolding of one portion of the protein in these precipitates is correlated with hydrogen exchange patterns observed under nonprecipitating conditions and in other studies of lysozyme.

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Characterization of the Unfolding Pathway of Hen Egg White Lysozyme

Cited by 56 publications

References 19 publications

Real-Time Protein Unfolding: A Method for Determining the Kinetics of Native Protein Denaturation using a Quantitative Real-Time Thermocycler

Real-Time Protein Unfolding: A Method for Determining the Kinetics of Native Protein Denaturation using a Quantitative Real-Time Thermocycler

Structural and functional analysis of lysozyme after treatment with dielectric barrier discharge plasma and atmospheric pressure plasma jet

Unfolding and Conformational Distributions during Protein Precipitation

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