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1.
The objectives of this study were to investigate the moisture-induced protein aggregation of whey protein powders and to elucidate
the relationship of protein stability with respect to water content and glass transition. Three whey protein powder types
were studied: whey protein isolate (WPI), whey protein hydrolysates (WPH), and beta-lactoglobulin (BLG). The water sorption
isotherms were determined at 23 and 45°C, and they fit the Guggenheim–Andersson–DeBoer (GAB) model well. Glass transition
was determined by differential scanning calorimeter (DSC). The heat capacity changes of WPI and BLG during glass transition
were small (0.1 to 0.2 Jg−1 °C−1), and the glass transition temperature (T
g) could not be detected for all samples. An increase in water content in the range of 7 to 16% caused a decrease in T
g from 119 down to 75°C for WPI, and a decrease from 93 to 47°C for WPH. Protein aggregation after 2 weeks’ storage was measured
by the increase in insoluble aggregates and change in soluble protein fractions. For WPI and BLG, no protein aggregation was
observed over the range of 0 to 85% RH, whereas for WPH, ∼50% of proteins became insoluble after storage at 23°C and 85% RH
or at 45°C and ≥73% RH, caused mainly by the formation of intermolecular disulfide bonds. This suggests that, at increased
water content, a decrease in the T
g of whey protein powders results in a dramatic increase in the mobility of protein molecules, leading to protein aggregation
in short-term storage. 相似文献
2.
Luminescence from the triplet probe erythrosin B provides spectroscopic characteristics such as emission energy and lifetime
that are sensitive to molecular mobility of the local solvent environment. This study investigated how variation in glycerol
content influences the properties of an amorphous sucrose matrix by monitoring phosphorescence of erythrosin B over the temperature
range from 5 to 100°C. Emission energy, lifetime, and red-edge excitation data revealed that glycerol affected the mobility
of amorphous sucrose matrix primarily through plasticization when the mole ratio of glycerol/sucrose was above 0.27, resulting
in a decrease in emission energy (ν
p), lifetime (τ) and energy difference (Δν
P) with excitation at the absorption peak and red edge and an increase in the nonradiative, collisional quenching rate k
TS0. At mole ratios ≤0.27 and at temperatures below the matrix T
g, glycerol exhibited an “antiplasticization” effect, as indicated by higher values of emission energy, lifetime, and energy
difference and lower values of the matrix collisional quenching rate. Changes in the distribution of emission energy (emission
bandwidth) and lifetime, and variation in the emission lifetime vs wavelength showed that glycerol reduced the spectral heterogeneity.
These data illustrate the complex effect of a hydrogen bonding solute on the mobility of an amorphous, hydrogen bonded sugar
matrix. 相似文献
3.
Sébastien N. Ronkart Claude Deroanne Michel Paquot Christian Fougnies Jean-Christophe Lambrechts Christophe S. Blecker 《Food biophysics》2007,2(2-3):83-92
Modulated differential scanning calorimetry, wide angle x-ray scattering, and environmental scanning electron microscopy were
used to investigate the physical and morphological properties of chicory root inulin spray dried under different conditions.
When the feed temperature increased up to 80 °C, the average degree of polymerization of the solubilized fraction increased,
leading to a higher glass transition temperature (Tg). Above 80 °C, the samples were completely amorphous, and the Tg did
not change. The starting material was semicrystalline, and the melting region was composed of a dual endotherm; the first
peak subsided as the feed temperature increased up to a temperature of 70 °C, whereas above 80 °C, no melting peak was observed
as the samples were completely amorphous. To a lesser extent, the inlet air temperature of 230 °C allowed a higher amorphous
content of the samples than at 120–170 °C but induced a blow-out of the particles. 相似文献
4.
Iwamoto S Kumagai H Hayashi Y Miyawaki O 《International journal of biological macromolecules》1999,26(5):C731-351
The dielectric constant, ′, and the dielectric loss, ″, for gelatin films were measured in the glassy and rubbery states over a frequency range from 20 Hz to 10 MHz; ′ and ″ were transformed into M* formalism (M*=1/(′−i″)=M′+iM″; i, the imaginary unit). The peak of ″ was masked probably due to dc conduction, but the peak of M″, e.g. the conductivity relaxation, for the gelatin used was observed. By fitting the M″ data to the Havriliak–Negami type equation, the relaxation time, τHN, was evaluated. The value of the activation energy, Eτ, evaluated from an Arrhenius plot of 1/τHN, agreed well with that of Eσ evaluated from the DC conductivity σ0 both in the glassy and rubbery states, indicating that the conductivity relaxation observed for the gelatin films was ascribed to ionic conduction. The value of the activation energy in the glassy state was larger than that in the rubbery state. 相似文献
5.
Within the framework of continuum mechanics, Singh et al. [1] developed an integro-differential equation, which applies to both Darcian (Fickian) and non-Darcian (non-Fickian) modes of fluid transport in swelling biological systems. A dimensionless form of the equation was obtained and transformed from moving Eulerian to the stationary Lagrangian coordinates. Here a solution scheme for the transport equation is developed to predict moisture transport and viscoelastic stresses in spheroidal biopolymeric materials. The equation was solved numerically and results used for predicting drying and sorption curves, moisture profiles, and viscoelastic stresses in soybeans. The Lagrangian solution was obtained by assembling together several schemes: the finite element method was used to discretize the equation in space; non-linearity was addressed using the Newton-Raphson method; the Volterra term was handled via a time integration scheme of Patlashenko et al. [2] and the Galerkin rule was used to solve the time-differential term. The solution obtained in Lagrangian coordinates was transformed back to the Eulerian coordinates. In part II of this sequence we present the numerical results.Revised version: 5 October 2003 相似文献
6.
The biofilm proteome of a dairy-associated Bacillus cereus strain (B. cereus 5) was investigated. Biofilm biomass of sufficient concentration for 2D-PAGE was obtained by growing the culture in the presence of glass wool. B. cereus 5 readily attached to the glass wool and biofilms formed within 18 h. The biofilm proteome of whole-cell proteins revealed that 10 proteins were synthesized as a result of surface attachment of which four were unique to the biofilm profile. Seven proteins appeared to be absent in the biofilm profile. The altered proteomes indicated that changes took place in the regulation of protein expression when B. cereus 5 cells attached to surfaces. 相似文献
7.
Furuki T 《Carbohydrate research》2002,337(5):441-450
For aqueous solutions of di- and oligosaccharides thermodynamic properties have been investigated at subzero temperatures using differential scanning calorimetry. The amount of unfrozen water observed is found to increase linearly with the glass transition temperatures of anhydrous carbohydrates. Furthermore, the amount of unfrozen water shows a linear relationship with known solution properties of aqueous carbohydrates, such as partial molar compressibility and heat of solution. The different effectiveness among various di- and oligosaccharides to avoid ice formation is associated with the combination of constitutive monosaccharides and attendant molecular structure features including the position and type of the glycosidic linkage between the constituent units. More unfrozen water is induced in the presence of a carbohydrate having a poorer compatibility with the three-dimensional hydrogen-bond network of water. A series of these results obtained imply that there is a common key of carbohydrate stereochemistry governing several different thermodynamic amounts of a given system involving carbohydrates. In this context, a modified stereospecific-hydration model can be used to interpret the present results in terms of stereochemical effects of carbohydrates. 相似文献
8.
Vitrification of sugar-based solutions plays an important role in cryopreservation, lyophilization, and the emerging field of anhydrous preservation. An understanding of the glass transition characteristics of such formulations is essential for determining an appropriate storage temperature to ensure an extended shelf life of vitrified products. To better understand the effect of salts on the glass transition temperature (Tg) of glass-forming sugars, we investigated several data-fitting models (Fox, Gordon–Taylor and Kwei) for sugar–salt formulations using data from the literature, as well as new data generated on blends of trehalose and choline dihydrogen phosphate (CDHP). CDHP has recently been shown to have promise as a stabilizing agent for proteins and DNA. The Kwei equation, which has a specific parameter characterizing intermolecular interactions, provides good fits to the Tg data for sugar–salt blends, and complements other commonly used models that are frequently used to model Tg data. 相似文献
9.
10.
We have used measurements of the phosphorescence intensity decay of the triplet probe erythrosin B, dispersed in amorphous glucose, maltose, and maltotriose at probe:sugar mole ratios of approximately 1:10(4), to monitor the molecular mobility of the sugar matrix in the glass and melt around the glass-transition temperature (Tg). Intensity decays were well fit using a stretched-exponential decay model in which the Kohlrausch-Williams-Watts lifetime tau and the stretching exponent beta are the physically meaningful parameters. When normalized to the glass-transition temperature, the erythrosin lifetime decreased in the order glucose>maltose>maltotriose. Analysis of the lifetime provided an estimate of the collisional quenching constant for deexcitation of the triplet state (kTS0); kTS0 increased in the order glucosemaltose>maltotriose, indicating that the lifetime heterogeneity increased in the order glucose相似文献