2013
DOI: 10.1021/jf304949c
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Probe Mobility in Native Phosphocaseinate Suspensions and in a Concentrated Rennet Gel: Effects of Probe Flexibility and Size

Abstract: Pulsed field gradient nuclear magnetic resonance and proton nuclear magnetic resonance relaxometry were used to study the self-diffusion coefficients and molecular dynamics of linear (PEGs) and spherical probes (dendrimers) in native phosphocaseinate suspensions and in a concentrated rennet gel. It was shown that both the size and the shape of the diffusing molecules and the matrix topography affected the diffusion and relaxation rates. In suspensions, both translational and rotational diffusion decreased with… Show more

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Cited by 16 publications
(14 citation statements)
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“…The initial hypothesis was that the diffusion of FITC-labeled proteins was more hindered in casein systems than that of FITC-dextrans because of electrostatic interactions between these charged diffusing proteins and the casein matrix, rather than because of the solute flexibility. This hypothesis was supported by recent results of Salami et al, 51 who concluded that the solute flexibility did not influence their diffusion behavior in casein suspensions below the close-packing of casein micelles (estimated as 178 g/L). 49 They measured, using pulsed field gradient-NMR (PFG-NMR), that flexible PEGs and rigid dendrimers (both neutral) of similar size (R h ) presented similar diffusion behaviors in such suspensions.…”
Section: ■ Discussionsupporting
confidence: 76%
“…The initial hypothesis was that the diffusion of FITC-labeled proteins was more hindered in casein systems than that of FITC-dextrans because of electrostatic interactions between these charged diffusing proteins and the casein matrix, rather than because of the solute flexibility. This hypothesis was supported by recent results of Salami et al, 51 who concluded that the solute flexibility did not influence their diffusion behavior in casein suspensions below the close-packing of casein micelles (estimated as 178 g/L). 49 They measured, using pulsed field gradient-NMR (PFG-NMR), that flexible PEGs and rigid dendrimers (both neutral) of similar size (R h ) presented similar diffusion behaviors in such suspensions.…”
Section: ■ Discussionsupporting
confidence: 76%
“…On the other hand, Figure 4C compares the maximum values obtained from those predictions to the actual K values measured in the current work and also to those that have been estimated from the recent work of Salami et al 45 on the diffusion of linear and spherical PEG probes into dispersions of casein microgels (this being the same casein system and physicochemical conditions as in the present work). The difference between the predicted and measured values is even more accentuated here, with measured K values that can be two orders of magnitude higher than what is expected when molecule-medium interactions are considered to be purely steric.…”
Section: ■ Discussionsupporting
confidence: 75%
“…The values of K estimated from the work of Salami et al 45 (using the same conditions of pH, ionic strength, and casein composition as in the current study) are also displayed for comparison. force knowing the partitioning coefficient K and the size characteristics of the probe and microgel structure: Figure 5 presents the values of −δG CM (attract) , which is the energy per mol per unit surface area of the molecule, as a function of its molecular weight for the different diffusing species: these values are either determined from the current work or extracted from the data of Salami et al 45 For the proteins and PEG-dendrimers, the surface area used to calculate δG MC(attract) is based on a sphere. On the other hand, and since almost all the deformable probes (dextrans and PEG) have a radius r h larger than ξ/2, these molecules are expected to diffuse through the medium as unfolded linear chains.…”
Section: ■ Discussionmentioning
confidence: 95%
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“…The T 2 relaxation time is particularly sensitive to the rotational or local mobility of the probes at the nanometer scale, whereas the self‐diffusion coefficient reflects the displacement of the probe within the casein matrix on a distance of 1.5 μm. Previous studies carried out on native phosphocaseinate dispersions and gels have demonstrated that the local mobility of the matrix influenced the probe T 2 relaxation times . Despite their large size, a single T 2 was observed for PEG and dendrimer probes confirming motion averaging effect .…”
Section: Resultsmentioning
confidence: 70%