Search Results (11)

Growing concern over antibiotic resistance in poultry production has increased interest in natural feed additives such as Pleurotus ostreatus (oyster mushroom)-derived products. This study evaluated three freeze-dried oyster mushroom powders: total fresh fruiting body (OMP-TF), cooked solid residue (OMP-CSR), and cooked liquid fraction (OMP-CL), as dietary supplements in male Coturnix japonica. A β-glucan positive control and basal diet negative control were included. Birds (1-day-old) were fed experimental diets from 1 to 28 days. An Escherichia coli lipopolysaccharide (LPS) challenge was applied 12 h before sampling to induce an immune system activity. Growth performance, immune system activity, spleen relative weight, ileum morphometry, and antioxidant capacity were then evaluated to determine the effects of the experimental diets. Mushroom supplementation significantly modulated body weight during weeks 2–3 and overall weight gain, with OMP-TF maintaining higher body weight at week 4. Relative spleen weight, villus morphometry, cytokine responses (IL-1β, IL-2, IL-4), and total antioxidant capacity were not significantly altered compared with LPS controls. Overall, P. ostreatus supplementation modulated growth performance under inflammatory challenge conditions, without significantly affecting the measured immune or intestinal parameters. These findings suggest a potential role of mushroom-derived products as growth-supporting feed additives; however, further studies are needed to clarify their effects on immune function and intestinal health. Full article

Marine biomucus, a complex biomolecular gel, plays a pivotal role in defense against biofouling, mitigation of environmental stress, and regulation of biomineralization. This study conducts a comparative analysis of the physicochemical properties of mucus secreted by three distinct tissues—labial palps, mantle, and gills—of the Pacific oyster (Crassostrea gigas), alongside their freeze-dried counterparts. By integrating amino acid profiling, scanning electron microscopy (SEM), and Fourier-transform infrared spectroscopy (FTIR), we explored potential correlations between chemical composition, microstructure, and hypothesized macroscopic functional properties. Our findings inspire distinct tissue-specific structural characteristics that suggest potential structure–function relationships: The structure of labial palps mucus leads to the hypothesis that it may act as a viscous barrier-like property; mantle mucus shows features that could potentially support the formation of continuous films by a dense hydrogen-bond network; and gill mucus exhibits a porous three-dimensional network that potentially facilitates the process of respiratory and feeding. This work not only explores the material basis and potential structure–function relationships of C. gigas mucus as a natural biopolymer but also provides a potential theoretical framework for the design of novel marine-inspired biomimetic materials. Full article

Plant-based egg analogs often fail to develop characteristic egg aroma, which limits their sensory acceptance. While the pronounced differences in key aroma compounds between chicken egg and vegan egg products have been identified, the precursor-driven mechanisms underlying these differences remain unclear. The HPLC-MS technique was used to measure the free amino acids of scrambled chicken eggs and a commercial plant-based egg product before and after cooking. This first comparative analysis revealed pronounced deficits in key free amino acids involved in egg aroma chemistry, particularly methionine, cysteine, glutamic acid, and aspartic acid, in the plant-based matrix. To address this gap, 23 plant-derived raw materials were analyzed for their free amino acid composition, generating a targeted comparative dataset that links naturally occurring free amino acids in plant ingredients to egg-relevant aroma precursors. Oyster mushroom, yeast extract, cucumber, and celery root were identified as the most effective contributors to the missing precursor pool. These findings were translated into three prototype formulations designed to restore precursor availability. Consumer test results (n = 58) reported that the prototype enriched with celery root and dried cucumber powder achieved improved overall liking, odor, and taste compared with the original product. This study introduces the first precursor-guided formulation strategy that enables in situ egg-like aroma generation in vegan eggs during cooking, hence providing a mechanistic basis for future flavor- and taste-focused research. Full article

Although plant-based convenience foods have gained significant market share, many are high in fat, salt, and sugar while low in nutrients. The current study aimed to develop a vegan oyster mushroom soup powder enriched with moringa, mung bean, and pumpkin. These ingredients were chosen for their high nutritional value and availability. Four soup formulas, each containing varying amounts of moringa (0%, 1%, 2%, and 3%), were prepared, and a sensory evaluation, proximate analysis, and total aerobic plate count were carried out. The 1% moringa formulation showed the highest consumer acceptance. In this formula, moisture, ash, protein, fat, fiber, carbohydrate, and energy content were reported as 13.6%, 7.6%, 16.3%, 2.2%, 9.8%, 50.5%, and 287 kcal/100 g, respectively. The novel powdered soup product had higher amounts of phenolic compounds, total antioxidants, and iron compared to local, commercially available equivalents. Total aerobic plate counts remained below 10⁵ CFU/g; a common acceptability limit for dried soups, throughout the 4-month storage study under ambient conditions. Overall, the developed soup powder demonstrated superior nutritional quality and could support consumers in meeting their daily nutrient requirements. With further refinement, particularly by optimizing the drying process to better retain heat-sensitive nutrients, this product shows potential as an affordable and nutritious option to address inadequate protein intake and iron deficiency in Sri Lanka. Full article

Background: The incorporation of edible mushrooms into fish-based products offers a promising approach to enhance nutritional quality and oxidative stability. Oyster mushrooms (Pleurotus ostreatus) are valued for their β-glucans and bioactive compounds. This study aimed to evaluate the effects of hot-air dried and freeze-dried oyster mushrooms, added at different levels, on the nutritional composition, lipid quality, and oxidative stability of carp burgers. Methods: Carp burgers were prepared with 0.5–2.0% (w/w) of hot-air dried or freeze-dried oyster mushrooms, rehydrated at a standardized ratio of 5:1. Nutritional composition, β-glucan content, fatty acid profile, and lipid oxidation were determined. Oxidative stability was assessed by peroxide, p-anisidine, and total oxidation, while nutritional quality was evaluated using lipid indices, including polyunsaturated-to-saturated fatty acid ratio (PUFA/SFA), and atherogenicity index. Results: Freeze-dried mushrooms preserved higher β-glucan content (5.80 g/100 g at 2% inclusion) than hot-air dried samples (2.21 g/100 g). Their addition lowered fat by 19.6% and enhanced oxidative stability, with peroxide and anisidine values reduced by 23% and 35%, respectively. Lipid nutritional indices improved, as the PUFA/SFA ratio increased by 15% and the atherogenicity index remained below 0.36 across all treatments. At 2.0% inclusion, freeze-dried mushrooms maximized β-glucan retention (96.9%) and reduced TOTOX by 22.2%. The optimal range for balanced oxidative protection was 1.5–2.0%. Conclusions: Incorporating freeze-dried oyster mushrooms at 1.5–2.0% with standardized rehydration improves the nutritional profile, fatty acid composition, and oxidative stability of carp burgers. These results provide practical parameters for developing functional fish products with enhanced health value and extended shelf-life. Full article

Pleurotus ostreatus (oyster mushroom) holds excellent promise worldwide, bringing several opportunities and augmenting the tool sets used in the biotechnology field, the food industry, and medicine. Our study explores the antimicrobial and probiotic growth stimulation benefits of freeze-dried P. ostreatus powders (OMP-TF, oyster mushroom powder from the total fresh sample; OMP-CSR, oyster mushroom powder from the cooked solid residue; OMP-CL, oyster mushroom powder from the cooked liquid), focusing on their bioactive compounds and associated activities. Our research examined polysaccharide fractions—specifically total glucans and α- and β-glucans—alongside secondary metabolites, including polyphenols and flavonoids, from freeze-dried mushroom powders. Additionally, carbon nanodots (CNDs) were also characterized. The growth inhibition was tested against Escherichia coli and Staphylococcus epidermidis, while the capacity for stimulating probiotic growth was evaluated using Lactobacillus plantarum and Lactobacillus casei. Evidence indicates that OMP-CL and OMP-CSR exhibit significant antimicrobial properties against S. epidermidis Gram-positive bacteria. OMP-CL notably promoted the growth of L. casei. OMP-CL, containing the most significant number of CNDs, has shown to be a valuable source for gut microbiota modulation, with its antimicrobial and probiotic-stimulating efficacy. However, further in vitro and in vivo studies should be performed to explore CNDs and their behavior in different biological systems. Full article

This study examined the physicochemical effects of the fortification of noodles with 0.25–1.00% (w/w) calcium salts, viz. calcium acetate, calcium carbonate, calcium citrate, and calcium lactate. Fortification with calcium citrate, calcium acetate, and calcium carbonate increased the pH and breaking force of the dried noodles. However, the fortification of noodles with any concentration of calcium did not increase the extent of elongation of the control raw noodles. The L* and b* values of the raw and dried noodle color increased with increasing concentrations of calcium salts, except for noodles with added calcium citrate. Fortification with calcium citrate yielded no significant influence on color, texture, adhesiveness, springiness, flavor, and overall scores for cooked noodles. Noodles fortified with 0.5% calcium citrate made from oyster shells were compared with a control sample of noodles and noodles fortified with commercially available calcium citrate. The particle size of the calcium citrate made from oyster shells (258 nm) was smaller than that of the purchased calcium citrate (2631 nm). Noodles fortified with calcium citrate made from oyster shells showed no significantly difference compared to noodles fortified with commercially available calcium citrate. These results suggest that calcium citrate made from oyster shells may be used as the additive of choice for the manufacture of calcium-fortified noodles. Full article

Oysters are nutritious and tasty but difficult to store. Drying can extend the storage period of oysters and give them a unique flavor. In this study, the effects of four drying procedures, namely, vacuum freeze drying (VFD), vacuum drying (VD), natural sun-drying (NSD), and hot air drying (HAD), on the flavor characteristics of oysters (Crassostrea hongkongensis) were investigated using blanched oysters as a control (CK). Results showed that HAD produced more free amino acids than the other methods, but VFD retained the most flavor nucleotides. Compared with cold drying (VFD), hot drying (VD, NSD, and HAD) increased the abundance of organic acids, betaine, and aroma substances. Glutamic acid, alanine, AMP, hexanal, octanal, heptanal, (E, E)-2,4-heptadienal, (E)-2-decenal, nonanal, etc., are defined as the characteristic flavor compounds of dried oysters, with umami, sweet, green, fatty, and fruity aromas being the main organoleptic attributes of dried oysters. Glutamic acid, glycine, betaine, IMP, pentanal, ethyl heptanoate, (E, Z)-2,4-nonadienal, 1-octen-3-one, 2-hexenal, 2-octenal, hexanal, decanal were defined as markers to distinguish different drying methods. Overall, HAD showed improved flavor qualities and characteristics and was better suited for the highly commercialized production of dried oysters. Full article

Lipid and protein oxidation is a main problem related to the preservation of dried aquatic products. Rosemary oleoresin is widely used as an antioxidant, but its application is limited due to its instability and easy degradation. Nanoliposome encapsulation is a promising and rapidly emerging technology in which antioxidants are incorporated into the liposomes to provide the food high quality, safety and long shelf life. The objectives of this study were to prepare nanoliposome coatings of rosemary oleoresin to enhance the antioxidant stability, and to evaluate their potential application in inhibiting protein and lipid oxidation in dried oysters during storage. The nanoliposomes encapsulating rosemary oleoresin were applied with a thin-film evaporation method, and the optimal amount of encapsulated rosemary oleoresin was chosen based on changes in the dynamic light scattering, Zeta potential, and encapsulation efficiency of the nanoliposomes. The Fourier transform-infrared spectroscopy of rosemary oleoresin nanoliposomes showed no new characteristic peaks formed after rosemary oleoresin encapsulation, and the particle size of rosemary oleoresin nanoliposomes was 100–200 nm in transmission electron microscopy. The differential scanning calorimetry indicated that the nanoliposomes coated with rosemary oleoresin had better thermal stability. Rosemary oleoresin nanoliposomes presented good antioxidant stability, and still maintained 48% DPPH radical-scavenging activity and 45% ABTS radical-scavenging activity after 28 d of storage, which was 3.7 times and 2.8 times higher than that of empty nanoliposomes, respectively. Compared with the control, the dried oysters coated with rosemary oleoresin nanoliposomes showed significantly lower values of carbonyl, sulfhydryl content, thiobarbituric acid reactive substances, Peroxide value, and 4-Hydroxynonenal contents during 28 d of storage. The results provide a theoretical basis for developing an efficient and long-term antioxidant approach. Full article

Calcium dihydrogen phosphate monohydrate (Ca(H₂PO₄)₂·H₂O) (a fertilizer) was successfully synthesized through a recrystallization process using prepared triple superphosphate (TSP) derived from oyster shell waste as the starting material. This bio-green, eco-friendly process to produce an important fertilizer can promote a sustainable society. The shell-waste-derived TSP was dissolved in distilled water and kept at 30, 50, and 80 °C. Non-soluble powder and TSP solution were obtained. The TSP solution fractions were then dried, and the recrystallized products (RCP30, RCP50, and RCP80) were obtained and confirmed as Ca(H₂PO₄)₂·H₂O. Conversely, the non-soluble products (NSP30, NSP50, and NSP80) were observed as calcium hydrogen phosphate dihydrate (CaHPO₄·2H₂O). The recrystallized yields of RCP30, RCP50, and RCP80 were found to be 51.0%, 49.6%, and 46.3%, whereas the soluble percentages were 98.72%, 99.16%, and 96.63%, respectively. RCP30 shows different morphological plate sizes, while RCP50 and RCP80 present the coagulate crystal plates. X-ray diffractograms confirmed the formation of both the NSP and RCP. The infrared adsorption spectra confirmed the vibrational characteristics of HPO₄²⁻, H₂PO₄⁻, and H₂O existed in CaHPO₄·2H₂O and Ca(H₂PO₄)₂·H₂O. Three thermal dehydration steps of Ca(H₂PO₄)₂·H₂O (physisorbed water, polycondensation, and re-polycondensation) were observed. Ca(H₂PO₄)₂ and CaH₂P₂O₇ are the thermodecomposed products from the first and second steps, whereas the final product is CaP₂O₆. Full article

In food biotechnology, Pleurotus ostreatus is of great interest as a source of natural antioxidants and angiotensin-converting enzyme (ACE) inhibitors. However, research in this area has not yet been completed. The effect of various drying methods on the structural properties and the rehydration capacity of mushrooms was investigated in this paper. The content of secondary metabolites, the peptide profile, and the antioxidative effect and ACE inhibitory activity of dry mushrooms were investigated in vitro, simulating the process of gastrointestinal digestion. X-ray microtomography has confirmed that structure of lyophilic and sun-dried mushrooms is dominated by open pores, and in mushrooms dried with hot air and microwave, closed pores. Experiments have shown that the conditions of freeze drying and sun drying of Pleurotus ostreatus provide a higher rehydration capacity of dried mushrooms. The maximum activity of radical absorption of the oyster mushroom after microwave drying was observed. The iron restoring capacity of the mushrooms is maximally maintained with microwave drying and hot-air drying. The properties of the antioxidant product with an emphasis on the high activity of inhibiting lipid oxidation of the mushroom maximized after drying in the sun. Mushrooms dried lyophilically and in the sun showed the highest ACE inhibitory activity. Full article