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W2036690848 abstract "The goal of this discussion letter is to argue how and why an inherent nanoscale thermodiffusion (Soret-type) effect can be relevant in (dis)orderly protein aggregation. We propose a model in which the aggregation of proteins, in the presence of temperature gradient, is described in terms of Smoluchowski dynamics in the phase space of nuclei sizes. The Soret coefficient of the aggregation is proportional to the variations of the aggregation free energy over temperature. The free energy is related to the (interface) boundary condition of the system. When boundary condition is of equilibrium Gibbs–Thomson type, with a well-stated surface tension of the nucleus, to the system can be assigned a negative Soret effect. On the contrary, when a non-equilibrium perturbing (salting-out) term enters the boundary condition, a positive Soret effect may manifest. A zero-value Soret regime is expected to occur in between, yielding very soft (“fragile”) non-Kossel protein-type crystals." @default.
W2036690848 created "2016-06-24" @default.
W2036690848 creator A5004890228 @default.
W2036690848 creator A5023711625 @default.
W2036690848 date "2014-08-01" @default.
W2036690848 modified "2023-10-17" @default.
W2036690848 title "Thermodiffusion as a close-to-interface effect that matters in non-isothermal (dis)orderly protein aggregations" @default.
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W2036690848 doi "https://doi.org/10.1016/j.physleta.2014.07.038" @default.
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