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W2738451310 endingPage "2016" @default.
W2738451310 startingPage "2009" @default.
W2738451310 abstract "The structural stability of proteins has been traditionally studied under conditions in which the folding/unfolding reaction is reversible, since thermodynamic parameters can only be determined under these conditions. Achieving reversibility conditions in temperature stability experiments has often required performing the experiments at acidic pH or other nonphysiological solvent conditions. With the rapid development of protein drugs, the fastest growing segment in the pharmaceutical industry, the need to evaluate protein stability under formulation conditions has acquired renewed urgency. Under formulation conditions and the required high protein concentration (∼100 mg/mL), protein denaturation is irreversible and frequently coupled to aggregation and precipitation. In this article, we examine the thermal denaturation of hen egg white lysozyme (HEWL) under irreversible conditions and concentrations up to 100 mg/mL using several techniques, especially isothermal calorimetry which has been used to measure the enthalpy and kinetics of the unfolding and aggregation/precipitation at 12°C below the transition temperature measured by DSC. At those temperatures the rate of irreversible protein denaturation and aggregation of HEWL is measured to be on the order of 1 day-1 . Isothermal calorimetry appears a suitable technique to identify buffer formulation conditions that maximize the long term stability of protein drugs." @default.
W2738451310 created "2017-07-31" @default.
W2738451310 creator A5001987224 @default.
W2738451310 creator A5007948012 @default.
W2738451310 creator A5014565765 @default.
W2738451310 creator A5053124926 @default.
W2738451310 date "2017-08-08" @default.
W2738451310 modified "2023-10-15" @default.
W2738451310 title "Temperature stability of proteins: Analysis of irreversible denaturation using isothermal calorimetry" @default.
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W2738451310 doi "https://doi.org/10.1002/prot.25354" @default.
W2738451310 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5706114" @default.
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