Search Results (648)

A huge amount of waste is produced annually by the food processing industry which must be valorized into high-value products. Therefore, the aim of this work involves the use of such wastes for production of β-glucans from medicinal basidiomycete strains which are powerful biological response modifiers in several clinical disorders. The production of β-glucans from basidiomycete strains in submerged fermentation was monitored by using monoclonal antibodies of the IgG and IgM classes as well as by Congo red assay in the presence of several agro-industrial waste products such as milk permeate, waste coffee grounds, orange peels and rice husks. Subsequently, these β-glucans were purified by using gel filtration and ion-exchange chromatography. FTIR analysis of several β-glucans was carried out to investigate their structural properties. The adsorption of β-glucans on microtiter plates was dependent on the temperature as well as on the time period of immobilization for ELISA. These mAbs can be used in a competitive ELISA for detection and quantification of β-glucans from basidiomycete mushrooms. Full article

Fermented sucuk is a fermented food product widely consumed and enjoyed by people in Türkiye. Spices and other additives are used in the production of fermented sucuk. Due to the increasing demand for natural and healthy food consumption, the need for natural additives is also growing. Propolis is naturally obtained from honeybee hives and consists of bioactive compounds with antimicrobial and antioxidant properties. Studies have been conducted on the addition of propolis to various meat and meat products, as well as other food products. However, no studies have been found on the addition of propolis to fermented sucuk. The aim was to investigate the effect of different types of propolis (red, green, brown) on the quality characteristics of fermented sucuks. Microbiological, physicochemical, textural and sensory analyses were performed on the sucuk samples produced. It was observed that propolis did not have an adverse effect on the analysis results of propolis-added sucuks. In particular, it was determined that the growth of pathogenic bacteria was inhibited in propolis-added sucuk, resulting in low TBARS values, and other analyses yielded results in line with these standards. Based on these findings, the addition of propolis has been shown to have a positive effect on the quality of fermented sucuk. Full article

Microbial fermentation is an important means to enhance the nutrition and functionality of food, and soybean fermentation has a long history and a wide variety of products. This study systematically compared the effects of fermentation and post-ripening processes of Bacillus subtilis natto JLCC513 on the nutritional components, active substances, and sensory characteristics of soybeans. The experimental results showed that, in terms of basic nutrition, fermentation led to a significant decrease in fat and reducing sugar content, followed by an initial increase and then a decrease in total protein content. In contrast, water-soluble protein continued to increase, and the total amount of free amino acids surged. The active nutritional indicators before and after soybean fermentation showed that nattokinase activity continued to increase during fermentation and post-ripening. At the same time, the number of viable bacteria decreased slightly during post-ripening. The increase in the proportion of easily absorbed aglycone-type isoflavones before and after soybean fermentation is accompanied by a sustained increase in vitamin K2 and gamma aminobutyric acid (GABA) content. In terms of sensory quality, color-difference analysis shows a decrease in brightness (L value) and an increase in redness (a value), resulting in the characteristic yellow-brown color of natto. In terms of texture characteristics, the hardness decreases, while the viscosity and elasticity are significantly enhanced. Through GC-IMS analysis of volatile aromas during soybean fermentation and post-ripening, it was found that esters (such as ethyl acetate) and pyrazines (such as 2,3-dimethylpyrazine) increased, and the product flavor shifted from grassy to fruity and nutty. In summary, natto bacteria enhance the digestibility, nutritional value, and sensory acceptance of soybeans through enzymatic hydrolysis and metabolic transformation. The post-ripening stage plays a key role in flavor maturation and further accumulation of active ingredients. Full article

Background/Objectives: In the context of increasing consumer demand for high-quality meat, this study aimed to evaluate the effects of 4% fermented goji berry residue supplementation on meat quality and flavor characteristics in finishing Tan sheep. Methods: Thirty-six male lambs were randomly assigned to a control and FGB group and fed for 68 days. Results: FGB supplementation significantly enhanced Longissimus Dorsi (LD) brightness (L*), redness (a*), and crude protein content, while reducing crude fat (p < 0.05). Amino acid analysis revealed significant increases in lysine, methionine, histidine, glycine, proline, arginine, cysteine, and total sweet-tasting amino acids in the FGB group (p < 0.05). Lactate and inosine monophosphate (IMP) levels were significantly elevated, whereas hypoxanthine levels decreased (p < 0.05). Metabolomics identified 189 metabolites, with 12 differentially expressed, mainly enriched in butanoate metabolism, glycolysis/gluconeogenesis, PI3K-Akt, and HIF-1 signaling pathways. Transcriptomics revealed 382 differentially expressed genes, including key regulators of lipid metabolism (FOXO1, SLC2A4, LPIN1, IGF1, SPP1) and amino acid metabolism (COL3A1, GLUL, PSMC1). Conclusions: Fermented goji residue altered amino acid and lipid metabolism in the LD muscle of Tan sheep, affecting meat quality and flavor traits. However, effects on color (L*, a*, b*), protein content, and shear force varied across the four muscles studied, indicating that responses to supplementation are muscle-specific. These findings offer a sustainable strategy for improving meat quality and provide insights into the molecular mechanisms underlying flavor development in ruminants. Full article

Monascus pigments (MPs) are valuable natural colorants, but their industrial production is often hampered by scarce high-yield strains and inefficient processes. In this study, a novel MPs-producing strain was isolated from red yeast rice and named as Monascus purpureus HC-5. This strain exhibited notable hydrolase activities, indicating a high efficiency in substrate utilization. In addition, using rice as the optimal substrate, the key parameters of solid-state fermentation were optimized. Response surface analysis revealed that soaking time and temperature were the most critical influencing factors. The optimal combination conditions were an inoculum size of 8.91%, a soaking time of 13.59 h, and a temperature of 32 °C. Under these optimized conditions, the MPs yield reached 2185 ± 255.7 U/g, which displayed an approximately four-fold increase compared to the initial unoptimized process. Briefly, this study identified a strain of Monascus purpureus and optimized its solid-state fermentation conditions, which significantly increased the yield of MPs. This provides an important theoretical basis and scientific evidence for the large-scale industrial production of MPs. Full article

The aroma of wine is a defining quality attribute, determined mainly by volatile organic compounds (VOCs) originating from grape metabolism, fermentation, and maturation. This study aimed to characterize the VOC composition of young monovarietal red wines from the Alentejo region (Portugal), produced from Alicante Bouschet, Touriga Nacional, and Trincadeira across five consecutive vintages (2020–2024). Headspace solid-phase microextraction (HS-SPME) coupled with comprehensive two-dimensional gas chromatography–time-of-flight mass spectrometry (GC×GC-ToFMS) was applied for VOC profiling, followed by multivariate statistical analyses. A strict identification and reproducibility criterion was applied to ensure longitudinal consistency over the five vintages. MANOVA analysis revealed significant effects (p < 0.001) of both grape variety and vintage on VOC distribution. Esters were the most abundant and discriminant group, while aldehydes and terpenes contributed markedly to varietal differentiation. Alicante Bouschet wines were associated with fruity ethyl esters, Touriga Nacional with monoterpenes (citronellol, terpinolene, α-farnesene) and aromatic alcohols, and Trincadeira with aldehydes and sesquiterpenes. Canonical discriminant analysis (CDA) achieved clear separation among varieties and vintages, with the first two canonical functions accounting for over 70% of the total variance. Heatmap analysis highlighted distinctive terpene and C13-norisoprenoid profiles across samples. These findings demonstrate the pivotal role of VOCs in defining Alentejo wine typicity and support their use as chemical markers for authenticity and PDO valorization. Full article

This study investigated the functional, pasting, and rheological properties of sprouted fava bean flour, Lactobacillus plantarum fermented red rice flour, and mixed flour. Then, the study investigated the structural properties of sprouted fava bean dough, fermented red rice dough, and mixed dough, as well as the quality and functional properties of the mixed noodles. The results showed that sprouting and fermentation treatments improved the processing properties of the flour. X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FTIR), and moisture distribution results of the dough showed that the mixed dough had a more stable structure. Scanning electron microscopy (SEM) and Confocal laser scanning microscopy (CLSM) of the noodles showed that the addition of sprouted fava bean flour was able to mimic the protein network structure to some extent. In addition, germination and fermentation were effective in improving the textural properties, as well as increasing the total phenolic content (1.27–2.03 mg GAE/g) and antioxidant activity, including 1,1-diphenyl-2-picrylhydrazyl (DPPH) radical scavenging (43.54–64.84%), 2,2′-azinobis-(3-ethylbenzothiazoline-6-sulfonic acid) (ABTS) radical scavenging (41.37–58.98%), Hydroxyl radical scavenging (19–48.38%), while significantly reducing the estimated glycemic index (74.64–57.60) of the mixed noodles. Full article

The study aimed to elucidate compositional changes in free phenolic compounds (fPHEs) during bakery processing of wheat flour supplemented with grape pomace (GP) and to assess dough rheology, bun shape and physical characteristics. Three GP variants were used—two from white cultivars (Rhine Riesling; Rhine Riesling + Muscat of Moravia) and one from a red blend (Saint Laurent and André)—at substitution levels of 5, 10, 20, and 30%. Thirty-four fPHEs were quantified by high-resolution UHPLC-MS-Orbitrap; dough rheology was assessed by Mixolab; and potential fPHE–wheat macromolecule interactions were examined via FTIR spectroscopy. Wheat flour contained only six fPHEs at low concentrations. Both white GP samples had similar profiles of 32 fPHEs, dominated by miquelianin (526–683 µg/g) and hyperoside + isoquercetin (390–476 µg/g). Red GP was highly enriched in anthocyanins (>30,000 µg/g) and generally exceeded white GP in most fPHEs. Even 5% GP substantially increased fPHE concentrations throughout processing. Several compounds (e.g., gallic acid, miquelianin) exceeded theoretical values, suggesting release from bound forms during fermentation and heating, whereas anthocyanins lost at least 30% during baking. Rheological analysis showed shorter dough development and reduced stability with increasing GP. White GP enhanced starch gelatinization (C3), gel stability (C4), and retrogradation, whereas 20% red GP markedly impaired gelatinization. GP additions ≥10% deteriorated bun shape and physical properties. FTIR confirmed spectral shifts likely due to fPHE–protein/starch interactions. In summary, incorporation of just 5% GP enhanced the nutritional profile of wheat buns. Full article

The implementation of vegetative cover crops in vineyards is a sustainable alternative to chemical weed control, potentially influencing both soil fertility and grape-associated microbiota. This study evaluated the impact of six groundcover management strategies under vines—white clover (Trifolium repens), red clover (Trifolium pratense), burr medic (Medicago polymorpha), lupine (Lupinus albus), spontaneous weeds, and an herbicide-treated control—on the microbial dynamics and physicochemical properties of Cabernet Sauvignon must and wine from the Maipo Valley, Chile. Amplicon sequencing of bacterial (16S rRNA) and fungal (ITS) communities was combined with spontaneous fermentation trials and chemical analyses of must and wine. Fungal and bacterial communities on grape surfaces were dominated by Ascomycota and Proteobacteria, respectively, with no significant compositional differences among treatments. During fermentation, Metschnikowia and Tatumella were the most abundant non-Saccharomyces and bacterial genera, respectively, showing dynamic shifts across fermentation stages. Legume-based covers, particularly red clover, increased wine total acidity and polyphenol index while reducing pH. Correlation analyses revealed associations between specific microbial taxa (Metschnikowia, Cohnella, Saliterribacillus) and key enological parameters. Overall, these findings demonstrate that leguminous cover crops subtly modulate vineyard microbial ecology and fermentation outcomes, offering an environmentally sustainable pathway to enhance enological differentiation in semi-arid viticultural regions. Full article

Polysaccharides from marine organisms have been extensively studied and utilized as functional food ingredients due to their excellent immunomodulatory properties. However, the immunomodulatory potential of fermented Ruditapes philippinarum polysaccharide (RPP) has not been systematically explored. This study investigated the effects of RPP on immune function in cyclophosphamide (CTX)-induced immunosuppressed BALB/c mice. These results revealed that RPP alleviated CTX-induced weight loss and restored appetite. Moreover, RPP can promote the morphology and indices of immune organs, as well as increased the number of white blood cells (WBC), red blood cells (RBC), and hemoglobin (Hb). Serum levels of interleukin-6 (IL-6) and immunoglobulin E (IgE) were significantly elevated following RPP treatment. Additionally, RPP improved colonic morphology by upregulating the expression of E-cadherin and ZO-1 and promoting the secretion of secretory IgA (sIgA). These results indicated that RPP exerted an immune protective effect in BALB/c mice and justified its further potential as a bioactive ingredient for functional foods derived from marine shellfish. Full article

Wuyi Hongqu (WYH), also called black-skin-red-koji, which has been utilizing as a fermentation starter for more than one thousand years in China, is a symbiotic combination of Monascus spp. and Aspergillus niger formed through long-term application and domestication. In this study, the strains of Monascus purpureus and A. niger isolated from WYH samples were used to investigate their mutual influence, especially the effects on three main secondary metabolites from M. purpureus, Monascus pigments (MPs), monacolin K (MK), and citrinin (CIT), using a double-sided Petri dish (DSPD). The results showed that co-cultivation of M. purpureus and A. niger strains was favorable to increase the MPs production while inhibiting the CIT production by M. purpureus, especially when M. purpureus strains (M_1-1 or M₉) were co-cultivated with certain A. niger strains (An_1-2 or An₉), respectively, and both Monascus strains hardly produced detectable CIT. The expression levels of CIT-related genes in M. purpureus M_1-1 or M₉ were greatly restricted when co-cultivated with A. niger An_1-2 or An₉ confirmed by RT-qPCR. This study provides important insights into the selection of WYH production strains and the effects of fungal interactions. Full article

Small black soybeans (Seomoktae, SBS), traditionally regarded as medicinal beans in East Asia, contain abundant bioactive compounds with antioxidant and anti-inflammatory potential. This study aimed to develop a functional plant-based milk substitute by fermenting soymilk (yellow soybean, YS) supplemented with SBS (25% or 50%) using Streptococcus thermophilus JAMI_LB_02 and Lactiplantibacillus plantarum JAMI_LB_05 (patented LABs) to enhance probiotic functionality and nutritional value. Fermentation characteristics, microbial viability, antioxidant activity, anthocyanin content, and free amino acid profiles were evaluated. After 72 h, total acidity in all samples exceeded 0.81%, and viable LAB counts reached 10.07–10.21 log CFU/mL, surpassing the Korean Food Code. The 50% SBS formulation exhibited significantly higher radical scavenging activity, total phenol and flavonoid contents, and anthocyanin levels (p < 0.05). Digestive enzyme treatment increased total free amino acid in SBS 50%, particularly functional amino acids such as arginine, alanine, and asparagine. Heatmap analysis classified products with high SBS content as Group A and analyzed the correlation between redness, antioxidant activity, and water-soluble amino acid content. Overall, SBS-fermented soymilk is an improved protein digestibility, probiotic-rich, and alternative to dairy-based fermented products, aligning with the growing consumer demand for plant-based functional foods. Full article

Esters are predominant fragrance components in various traditional fermented foods. Hongqu rice wine, a beverage gaining popularity among young consumers in China, largely owes its aromatic profile to esterases derived from Monascus species. However, research on esterification characteristics of Monascus strains remains limited, constraining efforts to improve the quality and flavor of Hongqu rice wine. To better understand their esterification characteristics of commercial Monascus strains from different regions of China and further develop a high-quality esterifying Monascus strain for the liquor industry, we identified five Monascus isolates from red koji samples used in rice wine fermentation. Their esterification activity was evaluated by preparing red koji through solid-state fermentation of wheat bran under conditions simulating industrial production. Among the isolates, M. purpureus M21 exhibited the highest reported esterification activity to date, reaching 88.5 ± 8.6 U. Through atmospheric and room-temperature plasma (ARTP) mutagenesis breeding, the esterification activity of M. purpureus M21 was further enhanced by 41% to 124.8 U. In summary, this study not only figures out the properties of commercial esterifying Monascus from diverse regional sources but also significantly enhances the esterification performance of a potent esterifying Monascus strain without invoking GMO controversies. This high-performance esterifying Monascus strain presents a promising fermentation starter to enhance the flavor profile of Hongqu rice wine and diverse fermented beverages, thereby meeting evolving consumer preferences. Full article

Natural wines represent a new trend in winemaking without the use of preservatives and starter cultures, revealing the unique quality traits of grapes, wine, and terroir, but are susceptible to spoilage or undesirable fermentations. This study investigated the microbial populations associated with organic grapes, must, and natural wines of the Limniona red grape variety, focusing on different production stages and fermentation vessels. Samples included immature and ripe grapes, initial and fermenting must, filtered and unfiltered wines, and final bottled and filtered wines. These were analyzed in order to enumerate key groups of microorganisms and identify beneficial yeasts and bacteria of alcoholic and malolactic fermentation, respectively, as well as potential markers of off-flavors. Culture-dependent methods were used to enumerate yeasts and bacteria, while Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass Spectrometry (MALDI-TOF MS) and 16S rRNA sequencing provided taxonomic resolution. Beneficial fermentation microorganisms (especially Saccharomyces yeasts) were scarce in initial grapes, where other contaminants or wild yeasts were present. Gradually, as fermentation progressed, there was a prevalence of Saccharomyces cerevisiae strains of increased diversity in matured wine, as well as several lactic acid bacteria (LAB) of malolactic fermentation. Most LAB were identified as Lactobacillus and Oenococcus species. Other bacteria from environmental sources, irrelevant to alcoholic/malolactic fermentation or spoilage, like Burkholderia, were also present during the vinification process. The type of vessel affected the type of LAB that prevail, with an abundance of Oenococcus in clay vessels versus Lactobacillus species in stainless-steel vessels. Notably, Lentilactobacillus parafarraginis can be linked to off-flavors if they represent a high percentage of the wine microbiota. These findings highlight the importance of understanding, monitoring and controlling microbial succession during production stages in order to prevent sensory faults and ensure the stable quality of natural wines. Full article

The scope of this work is the study of the evolution of Brettanomyces bruxellensis, the main wine spoilage yeast, during bottle fermentation of sparkling wines. Lambrusco (Emilia, Italy) was considered as a model wine, for its high concentration of precursors for B. bruxellensis activity, especially cinnamic acids. Five Lambrusco base wines furnished by a cooperative winery were inoculated with a 3-log concentration of B. bruxellensis and then underwent secondary fermentation in the bottle. Two strategies of contrast to B. bruxellensis, already successfully applied in red winemaking, were tested here for the first time in bottle fermentation: chitosan and a yeast proposed as a biocontrol agent. Bottle fermentation was monitored from a chemical and microbiological perspective. The resulting sparkling wines were analyzed by GC and HPLC–MS/MS to verify the presence of the key molecules indicating B. bruxellensis activity—biogenic amines, volatile phenols, and pyridines. Sensory analysis was also performed to establish the effects of the treatments on the overall wine profile. The results demonstrate that B. bruxellensis is capable of growing up to 5-log units, causing severe alterations of the wines, both from a chemical and sensorial point of view. The addition of chitosan at the beginning of bottle fermentation effectively mitigated the effects of B. bruxellensis, resulting in the wines being similar to the uncontaminated control. The effectiveness of the biocontrol agent under these conditions was lower and requires further investigation. Full article