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W3206371333 endingPage "4658" @default.
W3206371333 startingPage "4642" @default.
W3206371333 abstract "Fibrinogen nanofibers are very attractive biomaterials to mimic the native blood clot architecture. Previously, we reported the self-assembly of fibrinogen nanofibers in the presence of monovalent salts and have now studied how divalent salts influence fibrinogen precipitation. Although the secondary fibrinogen structure was significantly altered with divalent metal ions, morphological analysis revealed exclusively smooth fibrinogen precipitates. In situ monitoring of the surface roughness facilitated predicting the tendency of various salts to form fibrinogen fibers or smooth films. Analysis of the chemical composition revealed that divalent salts were removed from smooth fibrinogen films upon rinsing while monovalent Na+ species were still present in fibrinogen fibers. Therefore, we assume that the decisive factor controlling the morphology of fibrinogen precipitates is direct ion-protein contact, which requires disruption of the ion-surrounding hydration shells. We conclude that in fibrinogen aggregates, this mechanism is effective only for monovalent ions, whereas divalent ions are limited to indirect fibrinogen adsorption." @default.
W3206371333 created "2021-10-25" @default.
W3206371333 creator A5017639222 @default.
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W3206371333 creator A5081283784 @default.
W3206371333 creator A5085732034 @default.
W3206371333 date "2021-10-20" @default.
W3206371333 modified "2023-09-23" @default.
W3206371333 title "Influence of Divalent Metal Ions on the Precipitation of the Plasma Protein Fibrinogen" @default.
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W3206371333 doi "https://doi.org/10.1021/acs.biomac.1c00930" @default.
W3206371333 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34670087" @default.
W3206371333 hasPublicationYear "2021" @default.
W3206371333 type Work @default.