6533b824fe1ef96bd127fe94
RESEARCH PRODUCT
Pleiotropic Role of Recombinant Silaffin-Like Cationic Polypeptide P5S3: Peptide-Induced Silicic Acid Stabilization, Silica Formation and Inhibition of Silica Dissolution
Harald PaulsenKonstantinos D. DemadisChristian ZerfaßStephan HobeArgyro Spinthakisubject
chemistry.chemical_classificationPrecipitation (chemistry)Inorganic chemistryCationic polymerizationPeptide02 engineering and technologyGeneral Chemistryrespiratory system010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesAmino acidchemistry.chemical_compoundHydrolysischemistryBiomimetic synthesisPolymer chemistrySilicic acid0210 nano-technologyDissolutiondescription
Silica-mineralizing organisms such as diatoms manage several aspects of silica chemistry when polymerizing monomeric silicic acid into amorphous silica. Silicic acid is undersaturated in the diatoms’ habitats and mechanisms of enrichment and prevention of uncontrolled mineralization are not well understood. Diatom-biosilica is associated with organic compounds, including polycationic, post-translationally modified peptides termed silaffins, which induce the condensation of silicic acid under supersaturated conditions. Here, we report the pleiotropic action of the designed silaffin-like peptide P5S3, which (i) stabilizes 4–8x silicic acid (in supersaturated conditions of 8.3 mm), (ii) decelerates silica hydrolysis in non-saturated conditions (1 mm) and (iii) enhances silica precipitation at 15–30x supersaturation (30 mm), forming a composite precipitate. Abundant cationic amino acids in P5S3 can interact with silica, though blocking experiments with selected anions also indicate a role of non-electrostatic (e. g. amide-silica) interactions. This shows how silaffin-like peptides could potentially contribute to both keeping silica soluble, and forming peptide-silica precipitates.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2016-11-29 | ChemistrySelect |