Lundgrenabrams8364

Without standardized methods for rapidly detecting in food matrices viable T. cruzi, foodborne outbreaks remain neglected. In this work, a reverse-transcriptase real-time PCR (RT-qPCR) mRNA-based technique was developed for the rapid and specific detection and quantification of viable Trypanosoma cruzi in açai fruits and juice. The method uses specific primer targeting region on the cyt b gene. The maximum recovery rate of T. cruzi from inoculated açai juice was 82.50%. The limit of detection and quantification in açai juice was 10 parasites/mL for RT-qPCR (mRNA-based) and qPCR (DNA-based). The RT-qPCR efficiency was estimated at 97.27% with an R2 of 0.994. The RT-qPCR was shown to be able to discriminate between viable and nonviable cells. This method provides a useful tool for rapid assessment of low concentrations of viable T. cruzi in naturally contaminated food samples, and can be applied industrially as a quality and security method.Maltose crystallization affects the processibility and stability of sugar-rich foods. This study introduced a color-based clustering algorithm (CCA) to analyze crystallinity from the images of amorphous maltose/protein models. AChR agonist The XRD and DSC were also implemented in maltose crystallization characterization and validated the CCA analysis. The results indicated that CCA could effectively recognize maltose crystals (R = 0.9942), and amorphous maltose mainly crystallized to anhydrate α-maltose and β-maltose monohydrate according to its morphological aspects measured by CCA, XRD, and DSC. However, protein could change the mechanism of maltose crystal formation by disturbing the mutarotation and recrystallization processes of unstable β-maltose. Besides, maltose crystal formation and crystallinity were governed by molecular mobility as the CCA-derived Avrami indexes changed with the Strength parameter. Compared to XRD and DSC, the proposed CCA can provide a rapid and quantitative measure for maltose crystallinity and has great potential applications in the online detection of sugar crystallization.Post-harvest processing is a leading cause of metabolic changes and quality loss in food products. An untargeted metabolomics approach based on UHPLC-QTOF-MS was conducted to explain metabolic changes during post-harvest processing of Salvia miltiorrhiza. A rapid identification method was established for comprehensive characterization of 56 phenolic acids and 45 tanshinones. Enzymatic browning was found to be the primary factor impacting the metabolic profile. A decreasing in free phenolic acids along with increasing in bound polyphenols was observed correlated with the deepening of browning degree. The various substructures of bound polyphenols were explored to interpret the composition of browning-associated products. It has also been found that the steaming process and control of the moisture content during slicing can effectively reduce the influence of enzymatic browning. This metabolomics study will contribute to select the optimal post-harvest processing methods for S. miltiorrhiza and provide information for post-harvest processing of similar products.Fermented mandarin fish have been receiving attention from consumers due to their nutritional value and specific flavor. Microbial diversity in fermented mandarin fish has an important impact on their flavor and quality. However, little is known about the microbiome and the differences among different products. In this study, the bacterial profiles and flavor compounds in three typical fermented mandarin fish products were investigated and compared, and a correlation network was used to explore the potential relationship between microorganisms and flavor. Bacterial community analysis demonstrated clear differences in microbiota among the HF-, MF-, and OF-fermented mandarin fish products. Psychrilyobacter, Fusobacterium, and Vibrio were the most dominant in the HF-, MF-, and OF-fermented products, respectively. In addition, 14, 12, and 4 flavor substances (relative odor activity value, ROAV ≥ 1) were detected in the muscles from the central dorsal and ventral sides of the three samples, respectively. Several bacteria correlated with the production of important flavor compounds, and three genera (Arcobacter, Psychrilyobacter, and Shewanella) were the primary microorganisms contributing to more than six characteristic flavor compounds in fermented mandarin fish products. Therefore, the study's systematic method allows identificating important microbes and characteristic volatile flavor compounds in fermented mandarin fish and provides new insights into the relationship between microorganisms and flavor.Castanea sativa is an outstanding species that represents a valuable natural resource for rural populations. C. sativa shells (CSS), an abundant agro-industrial by-product generated during chestnut peeling process, is commonly discarded or used as fuel. Nevertheless, CSS produced are not depleted by this application and huge amounts are still available, being particularly rich in bioactive compounds (polyphenols, vitamin E, lignin and oligosaccharides) with health benefits. Phytochemical studies reported not only antioxidant and antimicrobial activities, but also anti-inflammatory, anticancer, hypolipidemic, hypoglycemic and neuroprotective activities. The application of a suitable extraction technique is required for the isolation of bioactive compounds, being green extraction technologies outstanding for the industrial recovery of chestnut shells' bioactive compounds. CSS were highlighted as remarkable sources of functional ingredients with promising applications in food and nutraceutical fields, mainly as natural antioxidants and effective prebiotics. This review aims to summarize the phytochemical composition and pro-healthy properties of CSS, emphasizing the sustainable extraction techniques employed in the recovery of bioactive compounds and their potential applications in food and nutraceutical industries.Production and consumption practices that reduce the environmental burden of eating and drinking and promote global sustainability are of paramount interest. Against this background, we present a quantitative study of US adults' perceptions of selected non-alcoholic beverages including pairs of regular and plant-based alternatives (iced coffee/iced coffee with almond milk, fruit smoothie/fruit smoothie with soy milk and cow's milk/oat milk). Particular focus was directed to comparing product perceptions of consumers who never consumed these plant-based alternatives with those who did (n = 249 and n = 274), as a means for contextualising the barriers that hinder uptake among non-users. The data were collected via an online survey with a multi-response empirical strategy where the beverages were characterised using a large set of emotional, conceptual, situational, and attitudinal/behavioural variables. Fitting expectations, negative associations were dominant in the group of consumers who never consumed the plant-based beverage variants.