Notes

[Analysis of drugs paintings associated with berries, plant as well as rice areas of Dan Cao Tu Jing].
Honey authentication has been becoming more and more important and necessary to the honey producers, the consumers and the market regulatory authority due to its favorite organoleptic and healthy properties, high value and increasing export but prevalent falsification practice for economic motivation in China and the potential health risk of adulterated honey. In this study, we obtained the spectral profiles of 90 authentic and 75 adulterated Chinese honey samples by means of high resolution nuclear magnetic resonance (NMR) spectroscopy, and 65 kinds of major and minor components in honey were identified and quantified from their NMR spectra. Combining with the multivariate statistical analyses including principal component analysis (PCA), linear discriminant analysis (LDA), and orthogonal partial least squared-discriminant analysis (OPLS-DA), the discrimination models were successfully established to identify the adulterated honeys from the authentic ones with an accurate rate of 97.6%. Furthermore, the corresponding volcano plot was used to screen out 8 components including proline, xylobiose, uridine, β-glucose, melezitose, turanose, lysine and an unknown component, which are responsible for the differentiation between the authentic and adulterated honeys and will help to control Chinese domestic honey market. Ancient grains are considered to have been minimally changed by selective breeding, thus they are resistant to pests and environmental adversities and have stood out as a healthy food for consumption. This article aimed to review Peruvian Andean maize (PAM), which despite being used in local cuisine, little information has been found in literature about its characteristics and bioactive properties. The highest yielding varieties of PAM include Chullpi, Piscorunto, Sacsa, Giant Cuzco, and Purple, which differs from the commercial maize by their greater variety of color, size, and higher levels of protein, lipids, and bioactive compounds. The genetic characteristics of PAM associated with a geographical origin allow for the production of agricultural products with higher added value, without exhausting the existing plantations and maintaining the sustainability of the Andean region. Advance glycation end products (AGEs) are a diverse group of compounds formed through the non-enzymatic maillard reaction of reducing sugars with the free amino groups in proteins, lipids or nucleic acids. Accumulation of AGEs has been suggested to be a pathogenic mechanism of oxidative stress, inflammation and structural tissue damage leading to chronic vascular problems in many ailments including diabetes, atherosclerosis, neuropathy, retinopathy, nephropathy, aging, and chronic renal disease. Treatment with AGEs inhibitors is believed to be a potential strategy for preventing lifestyle-related diseases. To inhibit the AGEs development is supposed to show part in the inhibition of diabetic problems. Study of dietary bioactive combinations with antiglycation properties delivers future views for inhibition or mediation associated to AGEs complications. Many study show the possibility of dietary constituents to stop AGE development. Therefore, search for natural compounds able to prevent glycation and have the potential therapeutic ability to inhibit diabetes and age associated diseases. The purpose of this review is to critically evaluate the existing literature on different phenolics on AGEs inhibition. Food Research International, the peer-reviewed international journal launched in 1992, celebrated its 26 years anniversary in 2018. Therefore, we presented an overview on the trending profile of Food Research International and its scientific achievements from 1992 to 2018 by identifying its trends in impact factor, h-index, journal rank, most cited articles, institutes, and countries. The data were retrieved from the Web of Science Core Collection and Scopus®. Several scientific achievements were observed in publications (a total of 6,751), impact factor (0.63-3.57), and citations (a total of 1,78,770) over the 26-year period. The most cited documents were related to the interdisciplinary research within food science and technology and contributed to strengthen the progress of science within the field. In 2007, a systematic review published in Food Research International explored the understanding of microencapsulation and their applications, which captured the scientific attention on microencapsulation in global research community. The journal published in vitro antioxidant assays that highly contributed to the process and analytical applications in food processing industries. Food Research International reported a good citing (cites given) and cited (cites received) relationship with the leading journals within the field. Brazil (301) was the most productive country with the highest contributions to the journal. Overall, these findings highlighted the evolution, quality, and productivity of the journal and provided an opportunity for early-career researchers to conduct more innovative studies in food science and publish in Food Research International. In this work, we studied the genomes and characterized some probiotic features of four S. macedonicus strains isolated from dairy environments in Italy that already had indicated some technological potential. The genomes of these strains were sequenced and used for genomic in silico studies. All strains were also evaluated for hemolytic activity, susceptibility to most commonly used antibiotics and probiotic potential, such as resistance to simulated gastrointestinal conditions, bile salts hydrolytic activity and adhesion ability to HT-29 human colorectal adenocarcinoma cells. Results revealed that one strain, namely S. macedonicus 211MA, was found to possess probiotic properties, such as resistance to simulated gastrointestinal conditions as well as adherence capability to human epithelial cells. In silico analyses revealed that S. macedonicus 211MA displayed the least number of single copy genes, genomic islands regions and gene content classified as virulence factors when compared to other S. macedonicus and S. gallolyticus strains. Moreover, the maximum gene content associated with bacterial stress response category and the presence of the opuCABCD operon, not detected in the other strains, were correlated with S. macedonicus 211MA capability to resist to low pH and to show higher adhesion to HT-29 human cells. This is the first report on the presence of opuCABCD operon in S. macedonicus and its possible relation with attachment ability and stress response. The influence of antifungal tetraconazole residues (either as an active substance or as a commercial formulation product) on the fermentative activity of Saccharomyces cerevisiae yeast was evaluated in pasteurized Garnacha red must by using laboratory-scale fermentation assays. The presence of this fungicide promoted a slight decrease in glucose consumption. Volatile fermentative-derived compounds were evaluated in deep. Statistically significant changes were found in methionol (with a mean decrease of around 24%), fatty acids (with increments ranged from 23% to 66%), and ethyl esters (with increases ranged from 23% to 145%) contents when grape musts were enriched with the commercial formulation at both contamination levels assayed. Based on protein mass fingerprinting analysis, it was possible to relate these variations on volatiles content with changes in the activity of several enzymes (Met3p, Met14p, Adh2p, Hmg1p, Erg5p, Erg6p, Erg11p, and Erg20p) involved in the secondary metabolism of yeasts. This study aimed to explore a novel strategy for dietary okra fruit powder (OFP) consumption on attenuation of non-alcohol fatty liver damage, lipid metabolic disorder and gut microbiota dysbiosis and associated mechanisms in high-fat diet (HFD)-induced obese mice. C57BL/6J mice were fed a normal diet and HFD feeds supplemented with or without OFP (2.5%, 5% and 10%, n = 10) for 12 weeks. The results showed that supplementation of OFP caused strong inhibition on HFD-caused high blood glucose, body weight gain and liver fat accumulation, as well as dyslipidemia involved in a dose-dependent modulation of hepatic FAS and CD36 expressions of obese mice. The hepatic LXR-α energy metabolism and PPAR-α pathway were also doubly activated by OFP to alleviate lipogenesis, obesity and metabolic syndrome. Malonaldehyde production was effectively antagonized, and glutathione peroxidase and superoxide dismutase activities were elevated by OFP supplementation in HFD-fed mice. OFP also significantly improved colonic SCFAs (acetic acid, propionic acid and butyrate acid) formation, especially for butyrate production via increasing the proportion of selected butyrate-producing bacteria. OFP also dramatically modified the gut microbial species at the family level with suppressing an increase in Proteobacteria, Actinobacteria and F/B ratio, and the decrease in Bacteroidetes caused by HFD. These findings support that dietary OFP consumption is a novel strategy to prevent obesity, metabolic syndrome and gut microbiota imbalance. Food packaging is a multidisciplinary area that encompasses food science and engineering, microbiology, as well as chemistry, and ignited tremendous interest in maintaining the freshness and quality of foods and their raw materials from oxidation and microbial spoilage. With the advances in the packaging industry, they could be engineered as easy-to-open, resealable, active, as well as intelligent with the incorporation of sensory elements while offering desired barrier properties against oxygen and water vapor. In this regard, the use of the electrospinning approach allows producing nanofibrous packaging materials with large surface-to-volume ratios and enables the higher loading of active agents into packaging materials. Electrospun packaging materials have been produced from various polymers (i.e., synthetic and natural) and their (nano)composites, and were mainly exploited for the encapsulation of active agents for their use as active food packaging materials. The electrospinning process was also used for the deposition of electrospun fibers on films to enhance their performance (e.g., as reinforcement material, or to enhance barrier properties). They could be even engineered to provide nutraceuticals to food, or antioxidant, antimicrobial or antifungal protection to the packaged food. In this article, first, introductory descriptions of food packaging, barrier properties, and electrospinning are given. Afterward, active and intelligent food packaging materials are briefly discussed, and the use of electrospinning for the fabrication of active food packaging materials is elaborated. Particular interest has been given to the polymer-type used in the production of electrospun fibers and active properties of the resultant packaging materials (e.g., antioxidant, antibacterial, antifungal). Finally, this review paper concludes with a summary and future outlook towards the development of electrospun food packaging materials. This study aimed to investigate the effects of salt concentration on the microbial community and flavor metabolites formed during northeast sauerkraut fermentation using a starter culture consisting of a combination Leuconostoc mesenteroides ORC 2 and Lactobacillus plantarum HBUAS 51041. The results revealed a correlation between microbiota and flavor metabolites, with the top 20 genera being identified using Illumina MiSeq. Lactobacillus and Leuconostoc were dominant genera throughout the fermentation process, and PCoA showed that the salt concentration had distinct impacts on the microbial community. The most abundant genus Lactobacillus (88.46%) was observed in the 0.5% salted sauerkraut at day 30. Forty-six flavor metabolites were identified by HS-SPME/GC-MS. The relative contents of esters, aldehydes and ketones showed the highest values in sauerkraut fermented with a 0.5% salt concentration. Sauerkraut fermented at 2.5 and 3.5% salt were characterized by higher relative contents of acids, alcohols, isothiocyanates and hydrocarbons.
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