Publications by authors named "Tatyana S Dyubko"

Molecular dynamics (MD) simulation is used to investigate the solubility behavior of cryoprotective (CP) solvents, such as DMSO, ethylene glycol (EG) and glycerol (GL), in pure water and in the presence of a lipid membrane. The MD study is focused on an equilibration timescale required for mixing large CP aggregates with aqueous and aqueous/lipid environments. The MD analysis demonstrates that DMSO mixes rapidly with water, so that all solute molecules are uniformly distributed in the equilibrium aqueous solution.

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A series of ring-substituted squaraines absorbing and emitting in the red and NIR spectral region was synthesized and their spectral and photophysical properties (quantum yields, fluorescence lifetimes) and photostabilities were measured and compared to Cy5, a commonly used fluorescent label. The absorption maxima in aqueous media were found to be between 628 and 667 nm and the emission maxima are between 642 and 685 nm. Squaraine dyes exhibit high extinction coefficients (163,000-265,000 M(-1) cm(-1)) and lower quantum yields (2-7%) in aqueous buffer but high quantum yields (up to 45%) and long fluorescence lifetimes (up to 3.

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The influence of low molecular weight cryoprotectants (CPs) such as glycerol (GL), 1,2-propanediol (PD) and dimethylsulfoxide (DMSO) on the structure of rat liver microsomal membranes on the stages of equilibration and upon freezing up to -196 degrees C was studied using a multiparametric fluorescent probe of flavonol nature. It was estimated that the studied CPs have individual concentration ranges defining low amplitude of their action on biomembranes. An exceeding of these ranges strongly increases the violation of membrane native structure already at the stage of incubation with CPs, strengthening it during the freezing procedure.

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Article Synopsis
  • * Upon entering lipid bilayers, dye 1 exhibited a significant increase in fluorescence intensity and a red-shift in emission, indicating higher sensitivity than dye 2, which showed only a slight change.
  • * Dye 1's effectiveness as a fluorescent probe for studying membrane-related processes was confirmed by its spectral responses in various liposome environments influenced by different lipids and detergents.
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