Development of technology for production of functional fruit drinks

The object of research is the technology of functional fruit and vegetable juice products enriched with collagen. The subject of research is various types of collagen, formulations and parameters of technological operations for the production of functional juice drinks. The research is aimed at the develop technology, recipes for a new assortment of fruit and vegetable drinks enriched with collagen. Also it is aimed at the preserve the functional properties of collagen in canned juice products after high-temperature processing and create food products for everyday consumption to solve age-related and other problems associated with human health. In the course of the study, standard methods were used to determine the organoleptic indicators of various types of collagen, juice products, as well as to determine the mass fraction of moisture, carbohydrates, fats, proteins in the developed fruit and vegetable drinks enriched with collagen. Also, to confirm the presence and preservation of collagen in finished products, the electrophoresis method was used to determine the atomic mass unit of the constituent substances after complete drying of the samples. The proposed methods make it possible to assess the quality of the developed collagen-enriched drinks, prove the presence and preservation of a biologically active additive in the finished product after using the sterilization mode parameters – temperature and time, when receiving canned products. The developed formulations and technology make it possible to consider functional fruit and vegetable juice-containing products enriched with a biologically active additive collagen as effective and useful. An easily digestible food product for everyday consumption is proposed for solving age-related and other problems related to human health, with regulation of the pH value for effective use of the beneficial properties of this additive. In contrast to existing functional juice products, the proposed formulations and technology make it possible to obtain juice-containing fruit and vegetable blended products with a biologically active additive collagen. The technology minimizes the impact of collagen on the organoleptic characteristics of the developed recipe compositions of finished products and preserves its beneficial biologically active properties in the finished canned product after heat sterilization.

Uptake of MicroRNAs from Exosome-Like Nanovesicles of Edible Plant Juice by Rat Enterocytes

MicroRNAs (miRNAs) are small RNAs present in extracellular vesicles (EVs) that, when transferred to a target cell, affect its biological functions. Plant miRNAs regulate the expression of certain mammalian genes. Here, we characterized EVs in fruit and vegetable juice, and their miRNA cargo, and investigated whether such miRNA-containing EVs could be taken up by mammalian enterocytes in vitro. Using filtration and ultra-centrifugation methods, EVs were purified from commercially available and manually squeezed plant juice. EV morphological features and subcellular localization were analyzed using the NanoSight tracking system and electron microscopy. Plant EV miRNA levels were evaluated using quantitative reverse transcription PCR. For the in vitro EV uptake experiments, rat intestinal epithelial cells (IEC6) were used. Plant EVs shared morphological features with mammalian EVs and contained miR156a-5p, miR166a-3p, and miR168a-5p. EVs were present in the cell sap-filled central vacuoles and were taken up by IEC6 cells. Edible plant cells produce EVs that contain various miRNAs and release them into the central vacuole. The exogenous plant EVs are taken up by mammalian enterocytes in vitro. These findings suggest the possibility that exogenous plant miRNAs carried by EVs can be absorbed via the gastrointestinal tract.

Intestinal Bacteroides Levels are Reduced by a Fruit and Vegetable Juice Concentrate

Objectives Phytochemicals from fruits and vegetables have the potential to reduce inflammation and improve overall health. This study evaluated the effect of an encapsulated fruit and vegetable juice concentrate (FVC) on the composition and abundances of intestinal microbiota in an overweight/obese, female population and the association with indicators of metabolic health and inflammatory status. Methods The study was performed as a randomized, double blind, placebo-controlled trial with 57 asymptomatic, pre-menopausal, overweight/obese (BMI between 25 and 40 kg/m2) females between 25–50 years of age and working in the healthcare field. Blood and fecal samples were collected before and after eight and sixteen weeks of daily supplementation with FVC. Metabolic and immune parameters were measured, and the gut microbiome was analyzed by sequencing of the V4 region of the 16SrRNA gene. Results The FVC supplementation did not change serum cholesterol, HDL, LDL, triglycerides and fasting glucose, or fasting cytokine levels for MCP1, MIP-1β, TNF-α, IL-10, IL-1β, IL-6, and Leptin. Sequencing analysis revealed the most abundant phyla detected at baseline in this population were Firmicutes (75.75 ± 10.59%), Bacteroidetes (15.23 ± 12.5%), with Actinobacteria, Proteobacteria and Verrucomicrobia also present. The following genera was most abundant in the study population: Blautia (22 ± 12.86%), Roseburia (8.03 ± 7.34%), Coprococus (5.44 ± 4.0%), Faecalibatcerium (11.12 ± 8.12%) and Bacteroides (10.89 ± 9.56%). FCV supplementation did not result in significant taxonomic changes at the level of phyla, or alter alpha (Shannon Index) or beta diversity (Bray Curtis analysis). However, there was a consistent reduction in overall bacterial abundance in the FVC supplemented group. This reduction was primarily attributed to the decrease in the gram-negative, anaerobic genus, Bacteroides (P = 0.08). Conclusions An encapsulated fruit and vegetable juice concentrate did not alter metabolic or inflammatory indicators in a healthy, overweight/obese female population, but resulted in a reduced abundance of the intestinal bacterial population, Bacteroides. Funding Sources NSA LLC/The Juice Plus+® Company.