Namita Deo scite author profile

Interactions of a model surfactant, sodium dodecyl sulfate (SDS), with a water-insoluble model protein, zein, were investigated to gain an understanding of the effects, such as skin irritation and protein denaturation, of surfactants that are common in personal-care products. To elucidate the mechanisms of such effects, the zein protein interaction with SDS in aqueous solutions was investigated using a multipronged approach involving a range of techniques, such as UV-visible and fluorescence spectroscopy, TOC (total organic carbon analysis), light scattering, and viscosimetry. The zein protein solubilization increases with an increase in the SDS concentration. Solubilization of zein occurs in two distinct stages followed by a complete unfolding of the protein. In the first stage ([SDS] ∼ 4 mM; critical complexation concentration), SDS is incorporated into the globular zein structure, forming small hydrophobic microdomains. From the pyrene fluorescence lifetime decay measurements, the aggregation number of SDS in such hydrophobic microdomains was found to be markedly lower than the aggregation number of pure SDS micelles in the bulk solution. The vibrational fine structure of pyrene fluorescence, however, showed the core of SDS-zein complex micelles to be more hydrophobic than that of the SDS micelles. In the second stage ([SDS] ∼ 200 mM; unfolding concentration), the protein unfolds, as is evidenced by viscosity and dynamic light scattering measurements.

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Complexation between Dodecyl Sulfate Surfactant and Zein Protein in Solution

Ruso

Deo

Somasundaran

2004

Langmuir

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Interactions between sodium dodecyl sulfate and zein protein, a model system for the understanding of the effect of surfactants on skin, were investigated using a range of techniques involving UV-vis spectroscopy, TOC (total organic carbon analysis), electrophoresis, and static and dynamic light scattering. Zein protein was solubilized by SDS. The adsorption of SDS onto insoluble protein fraction caused the zeta potential of the complex to become more negative. From these values, we calculated the Gibbs energy of absorption, which decreases when the SDS concentration is raised. Finally the structure of the complex, based on the analysis by static and dynamic light scattering, is proposed to be rod like.

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Namita Deo

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Surfactant Interactions with Zein Protein

Complexation between Dodecyl Sulfate Surfactant and Zein Protein in Solution

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