Evaluation of physicochemical properties on meringue prepared from phospholipase A2 enzyme-hydrolyzed liquid egg albumen

Tri-component hydrocolloid as egg white replacement in meringues: gellan gum with soy protein isolate and maltodextrin

BACKGROUND

In the quest for sustainable food ingredients, the present study delves into the potential of a tri-component hydrocolloid blend, comprising gellan gum (GG), soy protein isolate (SPI) and maltodextrin (MD), as a replacement for egg white in meringue production. The research aims to elucidate the intricate physical properties of meringue containing this tri-component structure, focusing on foaming dynamics, rheological behavior and the textural properties of the resulting meringue cookies.

RESULTS

Experiments were conducted with various hydrocolloids (k-carrageenan, GG, and locust bean gum) and GG was identified as optimal for improving foaming capacity and foaming stability. Rheological evaluations showed a positive correlation between increased GG concentration within the tri-component matrix and an increase in both storage modulus (G') and loss modulus (G"), indicating improved structural integrity. Furthermore, a comparative analysis of the texture profiles of cookies prepared with this blend highlighted the ability of higher GG concentrations to satisfactorily replicate the tactile and visual qualities of traditional egg white-based meringues. This result was particularly evident compared to formulations utilizing solely SPI or the combined SPI-MD configuration.

CONCLUSION

Conclusively, the results of the present study highlight the significant potential of the GG-SPI-MD tri-component structure to closely mimic the critical properties of egg white, thus offering a promising plant-based alternative for meringue production. © 2024 Society of Chemical Industry.

The shellac and shellac nanocomposite coatings on enhanced the storage stability of fresh eggs for sustainable packaging

Shellac bio-coatings can enhance to improve quality and storage stability of fresh egg qualities with improved shell strength therefore minimizing the reduction the egg losses. Shellac bio-chitosan at 3 concentrations (1 %, 4 % and 8 % w/w) and shellac-1 % montmorillonite nanocomposites were applied as biocoatings to improve storage stability. Shellac-8 % (SH-8 %) coated eggs exhibited the lowest weight loss (1.28 %), significantly. The weight loss of shellac 1 % + MMT and 4 % shellac (SH-4 %) coated eggs was similar each other and had lower weight loss than 1 % shellac (SH-1 %). The Haugh Unit (HU) of eggs with SH-8 % (63.75) had the significantly the highest HU. The SH-4 % (60.24) and SH-1 %/MMT-1 % (58.04) were similar, and the control was the lowest one. The albumin pH of SH-8 % (9.15) coated exhibited a significantly lower than SH-4 % (9.21) and SH-1 %/MMT-1 % (9.24), while the control (9.39) was the highest value at end of storage. For the shellac coated group, total soluble values of albumen reached 12.87 (initial) to 16.331 (SH-1 %), 15.96 (SH-4 %), 15.60 (SH-8 %) and 16.15 (SH-%1-MMT-1 %) at the end of storage. The RWC and foam stability of SH-8 %, SH-4 % and SH-1 % MMT-1 % were similar and higher than 1 % SH and uncoated egg samples. The rheology behaviors were maintained with increasing shellac concentration through the storage. SH-8 % biocoatings were very most effective in filling and sealing the porous in the eggshell and protecting the storage stability and enhancing the strength of the eggshell. Shellac bio-coatings acted as a tiny layer for an effective protective barrier to gas permeability for enhancing the storage stability of the fresh eggs. Higher shellac concentrations (4 and 8 %) and 1 %-MMT were enhanced the storage stability and can be vital solutions for improving shell strength, so it decreases breakage rates.

Scientific gastronomy: On the mechanism by which garlic juice and allicin (thio-2-propene-1-sulfinic acid S-allyl ester) stabilize meringues

Garlic juice (GJ) contains allicin, a bioactive that stabilizes egg white (EW) foams without potassium bitartrate (cream-of-tartar), meeting the aim to identify clean-label ingredients that alter foam characteristics. 0.001 wt% allicin in EWs forms stiff foams with the highest overrun (∼800 %) and delayed drainage (60 min). Whipping EW with GJ or allicin changes the disulfide-bridge conformation of the EW foam from 56, 44, and 0% gauche-gauche-gauche (SSg-g-g), trans-gauche-trans (SSt-g-t), and trans-gauche-gauche (SSt-g-g) to 11, 52, and 37%. Raman microspectrometry (RM) found higher relative percentages of SSg-g-g disulfide bonds coincide with rapid foam collapse, while the tyrosine I850/I830 band ratios, a measure of tyrosine surface exposure, remained constant. These changes in spectra illustrate that polypeptide chain displacement and protein unfolding are essential in stabilizing bubble interfaces. Few clean-label functional compounds alter foam stability and functionality, and compounds such as allicin could lead to entirely new culinary techniques and dishes.

Effectiveness of enzymes on structural, functional and creep-recovery behavior of freshly prepared meringue's batter using liquid egg albumen

In this research, the impacts of varying concentration of phospholipase A₂ (PLA), protease and lipase enzyme-treated liquid egg white (LEW) were prepared using meringue batters. The gelling physico-chemical, and rheological properties such as rheological creep-recovery compliance behavior, color value (L^*, a^*, b^*, ∆E^*, Chroma, Hue and WI), gelling strenght, pH value, gelling index as TPA parameter and specific density of freshly prepared meringue batter were analyzed. The specific density of meringue batter of control (0.49 ± 0.01) was significantly decreased (P < 0.05) after enzyme treatments of PLA (0.39 ± 0.01), lipase (0.33 ± 0.01), and protease (0.37 ± 0.01). Also, the enzymatic treatment significantly decreased the b^* values from - 0.08 ± 0.07 to - 0.76 ± 0.04, - 0.70 ± 0.06, and - 0.73 ± 0.03, respectively. The Burgers model was used to characterize rheological behavior of enzyme treated and freshly prepared meringue samples. Creep-recovery responses of samples were satisfactory (R² > 0.99) for evaluation of creep-recovery behavior. This research points out the efficacy of lipase pre-treated LEW in meringue preparation on improving functionality such as batter density and gelling properties.

The enhancement of the physicochemical and functional characterisation of egg white proteins using different enzymes during storage

In this research, the impacts of various enzymes (phospholipase-A2 (0.3% v/v), lipase (0.03% w/v), and protease (0.5% w/v)) on the physico-chemical and functional characteristics of the treated egg white protein (EWP) were determined. The pH, turbidity, colour (L*, a*, b*, and ∆E*), gas concentrations in the package, relative foaming capacity (RFC), and foaming stability were analysed during storage at 4 °C. The protease (1,000 ± 60.82) and lipase (790 ± 41.63) increased RFC values significantly (control: 616 ± 36.05) on the initial day. The enzymes significantly decreased (P < 0.05) the turbidity values from 0.46 ± 0.10 (control) to –0.30 ± 0.05 (lipase) and –0.35 ± 0.03 (protease), whereas it was increased by phospholipase-A2 (0.53 ± 0.06). This research points out the efficacy of the enzymes in improving functionality of EWP. In conclusion, treatment with protease enzyme provided the best RFC values at day 27. However, utilisation of protease led to decrease in L* and b* values.