Morrowbreum5190

Plant polyphenols applied as natural antioxidant ingredients, are known to bind to cysteine residues on meat proteins. The aim of this study was to examine the effect of light exposure on the formation of cysteine-phenol adduct in meat added 4-methylcatechol (4MC), a model polyphenol, during storage through quantitative LC-MS/MS-based analysis. Cysteine-4-methylcatechol adduct (Cys-4MC) formation in meat added 1500 ppm 4-MC increased significantly (by 50%) when stored under light in oxygen at 4 °C for 7 days as compared to storage in the dark. This was reflected by a significant decrease in thiol concentrations in the same sample. Gel electrophoresis showed loss in myosin heavy chain (MHC), and a resulting increase in cross-linked MHC (CL-MHC) and larger protein polymers in samples added 4MC. Protein blots stained with nitroblue tetrazolium (NBT) showed intensive protein-polyphenol binding in the meat samples added 4MC, but no major differences between storage conditions.Present work comprises the use of different solid-state Nuclear Magnetic Resonance strategies for characterizing structural and motional aspects of the peptide matrix that compose a set of four lyophilized Mexican cheese aqueous soluble extracts, each with a controlled ripening. Heteronuclear dipolar coupling modulation schemes allowed to characterize local mobility and structural homogeneity of cheeses' peptide segments in the solid-state as a function of ripening. Results suggest that ripened samples with certain local flexibility but important structural homogeneity present efficient microbial inhibition against tested bacterial strains, whilst high local rigidity of peptides within ripened cheese soluble fractions could partially explain the observed lack of antimicrobial activity. The present study attempts to propose novel observables for lyophilized cheese water soluble extracts that could be partially associated to their ripening-dependent antimicrobial activities, whereas said observables shall contribute to the better targeting, design and optimization of solid-state natural food bio-preservatives.Quantitative labeling of oil compositions has become a trend to ensure the quality and safety of blended oils in the market. However, methods for rapid and reliable quantitation of blended oils are still not available. In this study, matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS) was used to profile triacylglycerols in blended oils, and partial least squares regression (PLS-R) was applied to establish quantitative models based on the acquired MALDI-MS spectra. We demonstrated that this new method allowed simultaneous quantitation of multiple compositions, and provided good quantitative results of binary, ternary and quaternary blended oils, enabling good limits of detection (e.g., detectability of 1.5% olive oil in sunflower seed oil). Compared with the conventional GC-FID method, this new method could allow direct analysis of blended oils, analysis of one blended oil sample within minutes, and accurate quantitation of low-abundance oil compositions and blended oils with similar fatty acid contents.A precise quantification of insect chitin is needed in order to avoid overestimation of crude protein due to chitin-bound nitrogen. find more An UPLC/FLR method was optimized and validated for the determination of glucosamine (GlcN) hydrolyzed from chitin in insect materials. The method was applied for quantifying the chitin content in mealworms (Tenebrio molitor) and crickets (Acheta domesticus). A baseline separation was obtained using an Acquity HSS T3 C18 column, with an external calibration curve of excellent linearity, and a low limit of detection and quantification of GlcN. Even though the recovery of GlcN from spiked cricket material was slightly lower compared to that using spectrophotometric method, the UPLC/FLR method proved a sensitive and specific method of quantification of insect chitin. Chitin contents in T. molitor and A. domesticus were 4.6 ± 0.1% and 4.5 ± 0.0% on dry matter basis, respectively. Less than 0.01% of chitin was present in insect protein-enriched fractions extracted with 0.1 N NaCl at pH 10.Escherichia coli O157H7 makes a major threat to human health. Aiming to detect Escherichia coli O157H7 sensitively, hybridization chain reaction signal amplified immunoassay (immuno-HCR) based on contact quenching (CQ) and fluorescence resonance energy transfer (FRET) was developed. The background of the new designed HCR hairpins (CQ-FRET hairpins) was reduced by contact-quenching fluorescein (FAM) and breaking FRET from donor (FAM) to acceptor (Cy5). The F/F0 ratio of CQ-FRET hairpins (37.02) was obviously higher than that of two other common HCR fluorescent hairpins (CQ hairpins, 21.45; FRET hairpins, 4.61). The limit of detection of the assay was 3.5 × 101 CFU/mL and obviously lower than that of CQ hairpins based immuno-HCR (3.28 × 103 CFU/mL) and FRET hairpins based immuno-HCR (6.49 × 104 CFU/mL). The proposed low fluorescent background immuno-HCR with high sensitivity which was verified in contaminated milk samples could be potentially used in the detection of various pathogens.Previous studies indicate that the bioactive compounds of Eugenia stipitata pulp have antimutagenic, anticarcinogenic and antigenotoxic properties, but its use has been limited due to its high perishability. The aim of this study was to preserve bioactivity by using spray-drying microencapsulation, and is pioneering for its use of DSC to determine the best proportion of wall material (maltodextrin or gum arabic) and drying temperature (100 or 120 °C). The microparticles with maltodextrin (19)-100 °C had the best bioactivity conservation after in vitro gastrointestinal digestion, conserving 61% of total polyphenols, and 101%, 85% and 31% of antioxidant capacity according to the ABTS, FRAP and DPPH test methods respectively. These microparticles had a spherical morphology, presented good thermal stability and can be stored at a temperature range from 20 to 40 °C without becoming sticky. Therefore, spray-drying microencapsulation together with DSC is important for preserving a high concentration of bioactive compounds.