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W2132740549 abstract "Abstract Cohesion matters! The correlation between the conformational rigidity of the polyelectrolyte and the size and stability of the globular assembly is discussed in this review article. Some examples of models for the association of polyelectrolytes to globular assemblies are shown here. magnified image Supramolecular complexes of strong polyelectrolytes and oppositely charged ionic micelles or protein assemblies derive their main stabilization from electrostatic interactions that include the counterion condensation/release mechanism and from hydrophobic interactions distributed along apolar sections of the components. The predicted and the experimental behavior of selected complexes differing in the flexibility of the polyelectrolyte and in the cohesion of the complementary assembly is reviewed and analyzed. Depending upon the rigidity of the polyelectrolyte, globular surfactant clusters persist in the final structure or are transformed into elongated assemblies. On the other hand, even the rather rigid DNA molecule is forced to bend by strongly associated cationic protein complexes such as the histone octamers. A general framework should allow the prediction of these structures in terms of the interplay between the persistence length of the polyelectrolyte and the association constant of the protein or the surfactant assembly." @default.
W2132740549 created "2016-06-24" @default.
W2132740549 creator A5047089368 @default.
W2132740549 creator A5055091021 @default.
W2132740549 date "2009-06-16" @default.
W2132740549 modified "2023-10-15" @default.
W2132740549 title "The Supramolecular Association of Polyelectrolytes to Complementary Charged Surfactants and Protein Assemblies" @default.
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W2132740549 doi "https://doi.org/10.1002/chem.200900637" @default.
W2132740549 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19472233" @default.
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