Photophysical Probes of the Amorphous Solid State of Proteins

Abstract: The properties of amorphous solid proteins influence the texture and stability of low-moisture foods, the shelf-life of pharmaceuticals, and the viability of seeds and spores. We have investigated the relationship between molecular mobility and oxygen permeability in dry food protein films-bovine α-lactalbumin (α-La), bovine β-lactoblobulin (β-Lg), bovine serum albumin (BSA), soy 11S globulin, and porcine gelatin-using phosphorescence from the triplet probe erythrosin B. Measurements of the phosphorescence dec… Show more

“…1a) were fit to a stretched exponential function. This model has often been used to describe the heterogeneous distribution of relaxation processes in systems such as glasses 12–14 and proteins. 11,15 The fitting parameters for all three temperatures are given in Table I.…”

“…has often been successfully used to describe relaxation processes in glassy or glass-like systems 12–15 and proteins. 11,17–19 In this simple function, I 0 is the initial intensity, τ KWW is the Kohlrausch–Williams–Watts lifetime, and the variable β describes the degree of heterogeneity.…”

“…In addition to MEM-derived lifetime distributions, the stretched exponential function is shown to provide an adequate fit when the phosphorescence signal is due to a single emitter. While many processes—including luminescence decays—that are dependent on relaxation in glassy matrixes have been well described by this simple model, 11–15 we are unaware of any published instances of tryptophan phosphorescence decays fit to a stretched exponential.…”

Revisiting Time-Resolved Protein Phosphorescence

“…1a) were fit to a stretched exponential function. This model has often been used to describe the heterogeneous distribution of relaxation processes in systems such as glasses 12–14 and proteins. 11,15 The fitting parameters for all three temperatures are given in Table I.…”

“…has often been successfully used to describe relaxation processes in glassy or glass-like systems 12–15 and proteins. 11,17–19 In this simple function, I 0 is the initial intensity, τ KWW is the Kohlrausch–Williams–Watts lifetime, and the variable β describes the degree of heterogeneity.…”

“…In addition to MEM-derived lifetime distributions, the stretched exponential function is shown to provide an adequate fit when the phosphorescence signal is due to a single emitter. While many processes—including luminescence decays—that are dependent on relaxation in glassy matrixes have been well described by this simple model, 11–15 we are unaware of any published instances of tryptophan phosphorescence decays fit to a stretched exponential.…”

Revisiting Time-Resolved Protein Phosphorescence

Monitoring Molecular Oxygen Depletion in Wheat Flour Dough Using Erythrosin B Phosphorescence: A Biophysical Approach

Making sense of luminescence from GRAS optical probes