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Dissociative mechanism for irreversible thermal denaturation of oligomeric proteins.


ABSTRACT: Protein stability is a fundamental characteristic essential for understanding conformational transformations of the proteins in the cell. When using protein preparations in biotechnology and biomedicine, the problem of protein stability is of great importance. The kinetics of denaturation of oligomeric proteins may have characteristic properties determined by the quaternary structure. The kinetic schemes of denaturation can include the multiple stages of conformational transitions in the protein oligomer and stages of reversible dissociation of the oligomer. In this case, the shape of the kinetic curve of denaturation or the shape of the melting curve registered by differential scanning calorimetry can vary with varying the protein concentration. The experimental data illustrating dissociative mechanism for irreversible thermal denaturation of oligomeric proteins have been summarized in the present review. The use of test systems based on thermal aggregation of oligomeric proteins for screening of agents possessing anti-aggregation activity is discussed.

SUBMITTER: Chebotareva NA 

PROVIDER: S-EPMC5418479 | biostudies-literature | 2016 Dec

REPOSITORIES: biostudies-literature

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Dissociative mechanism for irreversible thermal denaturation of oligomeric proteins.

Chebotareva Natalia A NA   Roman Svetlana G SG   Kurganov Boris I BI  

Biophysical reviews 20161017 4


Protein stability is a fundamental characteristic essential for understanding conformational transformations of the proteins in the cell. When using protein preparations in biotechnology and biomedicine, the problem of protein stability is of great importance. The kinetics of denaturation of oligomeric proteins may have characteristic properties determined by the quaternary structure. The kinetic schemes of denaturation can include the multiple stages of conformational transitions in the protein  ...[more]

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