ABSTRACT
Honey is considered one of the last untreated natural food substances, with a complex composition. It is produced by bees (Apis mellifera) from nectar. The glycemic index (GI) is a physiological assessment of a food's carbohydrate content via its effect on postprandial blood glucose concentrations. This study evaluated the GI and the satiety response to three Mexican types of honey administered to 26 healthy volunteers. The fructose values ranged from 272.40 g/kg to 395.10 g/kg, while the glucose value ranged from 232.20 g/kg to 355.50 g/kg. The fructose/glucose (F/G) ratio of honey was 1.45, 1.00, and 1.17 for highland, multifloral, and avocado honey, respectively. Highland and avocado honey were classified as medium-GI (69.20 ± 4.07 and 66.36 ± 5.74, respectively), while multifloral honey was classified as high-GI (74.24 ± 5.98). Highland honey presented a higher satiety values response than glucose. The difference in GI values and the satiety response effect of highland honey could be explained by its different carbohydrate composition and the possible presence of other honey components such as phytochemicals. Honey, especially avocado, could therefore be used as a sweetener without altering significantly the blood glucose concentration.
ABSTRACT
Instant controlled pressure drop (DIC) is one of the emerging technologies in food processing; it can be used for drying, freezing and the extraction of bioactive molecules without damaging their properties. Legumes, such as lentils, are one of the most consumed foods in the world; however, they are mainly cooked by boiling, which causes the loss of antioxidant compounds. This work evaluated the effect of 13 different DIC treatments (with pressure ranges of 0.1-0.7 MPa and times of 30-240 s) on the content of polyphenols (Folin-Ciocalteu and High Performance Liquid Chromatography HPLC) and flavonoids (2-aminoethyl diphenylborinate) as well as the antioxidant activity (DPPH and TEAC) of green lentils. The DIC 11 treatment (0.1 MPa, 135 s) obtained the best release of polyphenols, which in turn are related to antioxidant capacity. The abiotic stress generated by DIC could lead to the breakdown of the cell wall structure, which favors the availability of antioxidant compounds. Finally, the most efficient conditions for DIC to promote the release of phenolic compounds and maintain antioxidant capacity were found under low pressures (<0.1 MPa) and short times (<160 s).
Subject(s)
Antioxidants , Lens Plant , Antioxidants/chemistry , Polyphenols/analysis , Flavonoids/chemistry , Lens Plant/chemistry , Phenols/chemistry , Chromatography, High Pressure LiquidABSTRACT
Cardamom Essential oils are highly demanded because of their antimicrobial, anti-inflammatory, and antioxidant activities. Nonetheless, retrieving quality extracts quickly with efficient energy savings has been challenging. Therefore, green technologies are emerging as possible alternatives. Thus, this study evaluates the yield and quality of the instant controlled pressure drop (DIC) process coupled with ultrasound-assisted extraction (UAE) of cardamom essential oil (CEO). Likewise, the antioxidant activity, chemical profile of CEO, and microstructure of seeds were analyzed. This study analyzed 13 different treatments with varying saturated steam processing temperatures (SSPT), thermal processing times (TPT), and 1 control. The results showed that CEO yield increased significantly by DIC (140 °C and 30 s) and UAE compared to the control (22.53% vs. 15.6%). DIC 2 (165 °C, 30 s) showed the highest DPPH inhibition (79.48%) and the best Trolox equivalent antioxidant capacity (TEAC) by the control with 0.60 uMTE/g. The GC/MS analysis showed 28 volatile constituents, withα-Terpinyl acetate, geranyl oleate, and oleic acid being the most abundant. DIC (140 °C and 30 s) and UAE showed the best yield and chemical profile. The SEM microscopy of untreated seeds revealed collapsed structures before the oil cell layer, which reduced the extraction yield, contrary to DIC-treated seeds, with more porous structures. Therefore, combining innovative extraction methods could solve the drawbacks of traditional extraction methods.
Subject(s)
Elettaria , Oils, Volatile , Oils, Volatile/chemistry , Antioxidants/pharmacology , Elettaria/chemistry , Gas Chromatography-Mass Spectrometry , SonicationABSTRACT
Maize is one of the three worldwide cereal crops with the most outstanding production; however, its postharvest losses range from 2 to 40% due to inadequate harvesting, drying, and storage technologies. This study focuses on the Instant Controlled Pressure Drop technology (DIC) effect on maize kernels' drying and rehydration kinetics. In total, 19 different DIC treatments were carried out on maize kernels (~25% d.b.). The DIC parameters studied were steam pressure (0.1 to 0.4 MPa) and treatment time (10 to 90 s). After DIC treatment, drying kinetics were carried out by Convective Air Drying (CAD) at 50 °C and 0.4 ms-1 airflow. Rehydration kinetics and Water Holding Capacity (WHC) were evaluated at 20 °C. In comparison to CAD samples, DIC (0.4 MPa and 90 s) reduced the drying time from 180 min to ~108 min. Additionally, regarding the rehydration and WHC results, DIC achieved the same moisture content in only 3.5 min that controls achieved after 1 h of rehydration (0.40 g H2O/g dry matter). Moreover, DIC (0.4 MPa and nine cycles of 10 s) increased the WHC 2.3 times compared to the control. In this way, DIC could be a postharvest technology to improve maize kernels' drying operations and functional properties.
ABSTRACT
Green cardamom (Elettaria cardamomum) is an outspread spice native to Asia, which is well appreciated for its sensory characteristics, delicate aroma, and unique taste. Currently, the main cardamom extracts are essential oils (EOs), and regarding current market tendencies, this market is in high growth. For this reason, technologies such as the instant controlled pressure drop (DIC) have been applied to reach higher yields and better quality of EO. Then, this study explores the impact of DIC as a pretreatment before hydrodistillation (HD) on the EO yield and their antioxidant activity. Obtained results showed that the coupling of DIC-HD increased the yield of essential oil and also had a positive impact on their antioxidant capacity. The EO yield of DIC-HD (140 °C and 30 s) was 4.43% vs. 2.52% for control; the AOX of DIC-HD (165 °C and 30 s) was 86% inhibition vs. 57.02% for control, and the TEAC of DIC-HD (140 °C and 30 s) was 1.44 uMTE/g EO vs. 13.66 uMTE/g EO.
Subject(s)
Elettaria , Oils, Volatile , Antioxidants/pharmacology , Plant Extracts/pharmacology , TechnologyABSTRACT
Kidney diseases are expected to become the fifth leading cause of death by 2040. Several physiological failures classified as pre-, intra-, and post-renal factors induce kidney damage. Diabetes, liver pathologies, rhabdomyolysis, and intestinal microbiota have been identified as pre-renal factors, and lithiasis or blood clots in the ureters, prostate cancer, urethral obstructions, prostate elongation, and urinary tract infections are post-renal factors. Additionally, the nephrotoxicity of drugs has been highlighted as a crucial factor inducing kidney injuries. Due to the adverse effects of drugs, it is necessary to point to other alternatives to complement the treatment of these diseases, such as nephroprotective agents. Plants are a wide source of nephroprotective substances and can have beneficial effects in different levels of the physiological pathways which lead to kidney damage. In traditional medicines, plants are used as antioxidants, anti-inflammatories, diuretics, and anticancer agents, among other benefits. However, the mechanism of action of some plants empirically used remains unknown and scientific data are required to support their nephroprotective effects. The present work reviewed the plants with a beneficial effect on kidney diseases. The classification of nephroprotective plants according to the clinical definition of pre-renal, intrinsic, and post-renal factors is proposed to orient their use as complementary treatments.
ABSTRACT
Folk medicine uses decoctions of Vernonanthura patens (Kunth) H. Rob. leaves for healing wounds, and moderate pains. In this study, anti-inflammatory activity of decocted aqueous extract and its fractions is discussed. The fractions were obtained by liquid-liquid extraction in a separating funnel with solvents of increasing polarity: hexane, chloroform, and ethyl acetate. Antioxidant capacity, COX1, and COX2 cyclooxygenase inhibitory activities of aqueous extract (A1), aqueous (A2), and ethyl acetate (A3) fractions were assessed. A3 revealed the highest flavonoid content, and DPPH (2,2-diphenyl-1-picrylhydrazyl) scavenging activity. Nevertheless, no significance differences were observed between IC50 values of A1 and A2, and A1 showed anti-inflammatory activity with potential selectivity against COX2 enzyme, but intermediate COX1 inhibition. Further experiments are required to complement the remarkable anti-inflammatory effect of assessed aqueous extract. These results support the medicinal use of this plant species and indicate that A1 can be used as raw material for prospective nutraceutical products.
Subject(s)
Asteraceae , Plant Extracts , Anti-Inflammatory Agents/analysis , Anti-Inflammatory Agents/pharmacology , Antioxidants/chemistry , Cyclooxygenase 2 , Plant Extracts/chemistry , Plant Leaves/chemistry , Prospective StudiesABSTRACT
Food processing systematically aims at meeting the needs of consumers who are looking for total high quality and perfect food safety. As the various thermal and non-thermal food preservation technologies often affect the natural properties in terms of sensation, flavor, texture, etc., instant controlled pressure drop (DIC) has been conceived as a relevant, innovative process in this field. DIC uses high saturated steam pressure and short duration to provide a new way to expand biological matrices, improve drying, decontaminate, and extract biologically active compounds, among other attributes. Therefore, this review focuses on describing the applications of DIC technology on a wide range of products such as foods and by-products that have been processed both in the laboratory and on an industrial scale. The application of DIC has shown the possibility of a significant leap in quality improvement and cost reduction in the food industry. DIC reduces the drying time of fruits and vegetables, and improves the extraction of essential oils, vegetable oils, and antioxidant components. It also provides strong decontamination, eliminates vegetative microorganisms and spores, and reduces non-nutritional and allergenic components. Over the past 33 years, this technology has continued to expand its food applications and improve its characteristics on an industrial scale. But there are still many food unit operations that can be taken to the next level with DIC.
Subject(s)
Food Handling/methods , Food Preservation/methods , Pressure , Technology , Animals , Edible Grain , Food Ingredients , Fruit , Humans , VegetablesABSTRACT
High Intensity Ultrasound (HIUS) can induce modification of the protein structure. The combination of enzymatic hydrolysis and ultrasound is an interesting strategy to improve the release of the Angiotensin-Converting Enzyme (ACE) inhibitory peptides. In this study, whey proteins were pretreated with HIUS at two levels of amplitude (30 and 50%) for 10 min, followed by hydrolysis using the vegetable protease bromelain. The hydrolysates obtained were ultrafiltrated and their fractions were submitted to a simulated gastrointestinal digestion. The conformational changes induced by HIUS on whey proteins were analyzed using Fourier-transform infrared spectroscopy by attenuated total reflectance (FTIR-ATR) and intrinsic spectroscopy. It was found that both levels of ultrasound pretreatment significantly decreased the IC50 value (50% Inhibitory Concentration) of the hydrolysates in comparison with the control (α = 0.05). After this treatment, HIUS-treated fractions were shown as smaller in size and fractions between 1 and 3 kDa displayed the highest ACE inhibition activity. HIUS promoted significant changes in whey protein structure, inducing, unfolding, and aggregation, decreasing the content of α-helix, and increasing ß-sheets structures. These findings prove that ultrasound treatment before enzymatic hydrolysis is an innovative and useful strategy that modifies the peptide profile of whey protein hydrolysates and enhances the production of ACE inhibitory peptides.
ABSTRACT
The citrus industry is one of the most important economic areas within the global agricultural sector. Persian lime is commonly used to produce lime juice and essential oil, which are usually obtained by batch distillation. The aim of this work was to validate a patented continuous steam distillation process and to both physically and chemically characterize the volatile fractions of essential Persian lime oil. Prior to distillation, lime juice was obtained by pressing the lime fruit. Afterwards, the juice was subjected to a continuous steam distillation process by varying the ratio of distillate flow to feed flow (0.2, 0.4, and 0.6). The distillate oil fractions were characterized by measuring their density, optical rotation, and refractive index. Gas chromatography GC-FID was used to analyze the chemical compositions of the oil fractions. The process of continuous steam distillation presented high oil recovery efficiencies (up to 90%) and lower steam consumption compared to traditional batch process distillation since steam consumption ranged from 32 to 60% for different steam levels. Moreover, a reduction in process time was observed (from 8 to 4 h). The oil fractions obtained via continuous steam distillation differed significantly in their composition from the parent compounds and the fractions.
Subject(s)
Citrus/metabolism , Distillation/methods , Chromatography, Gas/methods , Fruit and Vegetable Juices/analysis , Gas Chromatography-Mass Spectrometry/methods , Oils, Volatile/chemistry , SteamABSTRACT
Biological, physicochemical and textural parameters of a Panela cheese with and without probiotics (LSB-c and C-c) were analyzed during 15 days of storage at 4 °C. Changes in cohesiveness, hardness, springiness, and chewiness were measured by texture profile analysis. Additionally, moisture, pH, nitrogenous fractions (nitrogen soluble in pH 4.6, non-protein nitrogen, 70% ethanol-soluble nitrogen, and water-soluble extract) were evaluated. The peptide profile of nitrogenous fractions was also analyzed. Finally, biological activity was evaluated by ABTS (2,2'-Azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) diammonium salt) and DPPH (2,2-diphenyl-1-picrylhydrazyl), as well as the Inhibition of Angiotensin-Converting Enzyme. Analysis of variance showed significant differences for most of the evaluated parameters. By principal component analysis (PCA), two groups were separated, one corresponding to LSB-c and the other corresponding to C-c. The separation was given mostly by hardness, chewiness, and ABTS of all nitrogenous fractions. LSB-c showed higher biological activities than C-c.
ABSTRACT
Red beetroot is rich in bioactive compounds such as polyphenols, flavonoids, betaxanthins, betacyanins, among others. According to selected processing methods, the bioaccessibility of these compounds could be either enhanced or decreased. This study evaluated the effect of four different drying conditions: (1) Traditional Drying (TD), (2) Swell Drying (SD), (3) DIC Blanching + Traditional Drying (BTD), and (4) DIC Blanching + Swell Drying (BSD) on the antioxidant content and the antioxidant activity of red beetroots. Obtained results showed that in all the cases, by comparing to Traditional Drying (TD), the coupling of a DIC Blanching pre-treatment to a Swell Drying treatment (BSD) maintained or enhanced the preservation of the Total Phenolic Compounds (TPC), the Total Flavonoids Compounds (TFC), the Betanin Concentration (BC), the Trolox Equivalent Antioxidant Capacity (TEAC), and the Free Radical Scavenging Activity by DPPH (IC50) of red beetroots. Various studies have shown that thanks to the expanded and porous structure triggered by the Swell Drying process, it has been possible to achieve better antioxidants extraction and better whole quality. Hence, by coupling DIC as a blanching-steaming pre-treatment, it was possible to preserve better the antioxidant content and the antioxidant activity of red dried beetroots.
Subject(s)
Antioxidants/pharmacology , Beta vulgaris/chemistry , Plant Extracts/pharmacology , Antioxidants/chemistry , Antioxidants/isolation & purification , Betacyanins , Chemical Fractionation , Flavonoids , Free Radical Scavengers/chemistry , Free Radical Scavengers/isolation & purification , Free Radical Scavengers/pharmacology , Phenols , Phytochemicals/chemistry , Phytochemicals/isolation & purification , Phytochemicals/pharmacology , Plant Extracts/chemistry , Plant Extracts/isolation & purification , Preservation, Biological , PressureABSTRACT
The common bean is an important caloric-protein food source. However, its nutritional value may be affected by the presence of non-nutritional compounds, which decrease the assimilation of some nutrients; however, at low concentrations, they show a beneficial effect. Germination and treatment by controlled pressure-drop (DIC, French acronym of Détente Instantanée Contrôlée) are methods that modify the concentration of these components. The objective of this work was to evaluate the change in the non-nutritional composition of bean seeds and sprouts by DIC treatment. The results show that with the germination, the concentration of phenolic and tannin compounds increased 99% and 73%, respectively, as well as the quantity of saponins (65.7%), while phytates and trypsin inhibitors decreased 26% and 42%, respectively. When applying the DIC treatment, the content of phytates (23-29%), saponins (44%) and oligosaccharides increased in bean sprouts and decreased phenolic compounds (4-14%), tannins (23% to 72%), and trypsin inhibitors (95.5%), according to the pressure and time conditions applied. This technology opens the way to new perspectives, especially to more effective use of legumes as a source of vegetable protein or bioactive compounds.
Subject(s)
Phaseolus/metabolism , Seeds/metabolism , Germination/physiology , Oligosaccharides/metabolism , Phaseolus/physiology , Phenols/metabolism , Phytic Acid/metabolism , Seeds/physiology , Trypsin Inhibitors/metabolismABSTRACT
Chokecherry (Prunus virginiana L.) is rich in bioactive molecules as phenolics, which can act as antioxidants, anti-inflammatory, anticancer, among others; however, due to its high perishability, most of this fruit is wasted. Freezing and sun drying have been the most adopted techniques to avoid its postharvest deterioration. Nevertheless, both processes have presented some drawbacks as high storage costs and losses of bioactive molecules. Therefore, to preserve these molecules, this study compared the impact of convective airflow drying (CAD), freezing (FR), freeze drying (FD), and swell drying (SD). Total phenolics content (TPC), total flavonoids content (TFC), kuromanin concentration (KC), and antioxidant activity (antiradical activity (ARA) and Trolox equivalent antioxidant capacity assay (TEAC)) of chokecherries were measured. "Swell drying" is a drying process coupling convective airflow drying to the Instant Controlled Pressure Drop (DIC) expansion. A central composite rotatable design was applied to optimize the DIC variables and responses. Results showed that both freezing and swell drying effectively preserve the TPC, TFC, KC, and ARA. Moreover, SD samples also presented the highest TEAC. Contrary, in the case of CAD, it caused the highest losses of both antioxidant content and activity. Swell drying remedies the shrinkage and collapsing of dried food structure, which results in a better antioxidants extraction.
Subject(s)
Antioxidants/chemistry , Antioxidants/pharmacology , Plant Extracts/chemistry , Plant Extracts/pharmacology , Prunus/chemistry , Flavonoids/chemistry , Flavonoids/pharmacology , Free Radicals/antagonists & inhibitors , Phenols/chemistry , Phenols/pharmacology , Phytochemicals/chemistry , Phytochemicals/pharmacology , Spectrum AnalysisABSTRACT
Clinopodium mexicanum (Benth.) Govaerts (Lamiaceae) is a native plant of Mexico. This plant is used in traditional Mexican medicine for the treatment of cultural specific syndromes such as "susto", "nervios" or "espanto", conditions related to anxiety and depression. In addition, it has a high biocultural value for its medicinal and culinary use and for its exchange value in various indigenous areas of México. This review aims to compile updated information about the ethnobotanical, phytochemistry and commercialization aspects of Clinopodium mexicanum, and it focuses on the potential use of this species as a raw material in the phytopharmaceutical industry for the treatment of anxiety and pain. Moreover, it would be a viable productive alternative for many rural communities, which could not only produce the raw material but who could also add value to the sale of the plant.
Clinopodium mexicanum (Benth.) Govaerts, es una planta nativa de México. Es usada en la medicina tradicional mexicana para tratar síndromes de filiación cultural como "susto", "nervios" o "espanto", los cuales están asociados a la ansiedad y depresión. Además, la planta presenta un alto valor biocultural por sus usos: medicinal, culinario y por el valor de cambio que tiene en áreas indígenas de México. La revisión presentada tiene como objetivo compilar información actualizada sobre aspectos etnobotánicos, fitoquímicos y comercialización de Clinopodium mexicanum. Igualmente señalar el potencial uso de esta especie como materia prima para la elaboración de productos para la ansiedad y el dolor por parte de la industria fitofarmacéutica. Además de ser una alternativa productiva para muchas comunidades rurales, las cuales pueden venderla como materia prima o como producto derivado.
Subject(s)
Plants, Medicinal , Ethnobotany , Lamiaceae/chemistry , Medicine, Traditional , Commerce , Phytochemicals/analysis , Indigenous Peoples , MexicoABSTRACT
Cheese whey, a byproduct of the cheese-making industry, is discarded in many countries in the environment, causing pollution. This byproduct contains high-quality proteins containing encrypted biologically active peptides. The objective of this work was to evaluate the suitability of using this waste to produce bioactive peptides by enzymatic hydrolysis with a digestive enzyme. Cheese whey from white cheese (Panela cheese) was concentrated to increase total protein and hydrolyzed with trypsin. A central composite design was used to find the best conditions of pH and temperature, giving the higher antioxidant capacity and Δ Angiotensin-converting enzyme inhibition (Δ ACEI) activity. Higher biological activities were found when hydrolysis was performed at 52 °C and a pH of 8.2. The maximum value for the 2,2- diphenyl-1-picrylhydrazyl (DPPH)-scavenging activity was 26%, while the higher Δ ACE inhibition was 0.89. Significant correlations were found between these biological activities and the peptides separated by HPLC. The hydrophilic fraction (HI) showed highly significant correlations with the antioxidant capacity (r = 0.770) and with Δ ACE inhibition (r = 0.706). Antioxidant capacity showed a significant positive correlation with 34 peaks and Δ ACE inhibition with 33 peaks. The cheese whey was successfully used as raw material to produce peptides showing antioxidant capacity and ACEI activity.
ABSTRACT
Two new prenylated acylphloroglucinols, paleacenins A (1) and B (2), were isolated from the rhizome n-hexane and chloroform extracts of the fern Elaphoglossum paleaceum. Both compounds were found to possess the same geranylated filicinic acid moiety but have a different phloroglucinol ring substituent. Their structures were determined using 1H and 13C NMR spectroscopic, HRMS, and ECD analysis. The plant extracts and purified compounds were assayed for inhibition of monoamine oxidase (MAO) activity, and the n-hexane and chloroform extracts displayed 25.0% and 26.5% inhibition of MAO-A, respectively, as well as 42.5% and 23.7% inhibition of MAO-B, respectively. Compounds 1 and 2 exhibited IC50 values of 31.0 (1.3) µM for MAO-A and 4.7 (4.4) µM for MAO-B. Paleacenin A (1) showed a higher selective index (SI) toward MAO-B (SIMAO-B/MAO-A 0.1), and paleacenin B (2) exhibited selectivity to MAO-A (SIMAO-B/MAO-A, 3.5). The extracts showed cytotoxicity against a panel of prostate, cervix, breast, and colon cancer cell lines (IC50 values between 1.7 and 10.6 µg/mL); the pure compounds were more active against the prostate, cervix, and colon cancer cell lines. Paleacenins A (1) and B (2), with IC50 values of 46 and 41 µM, respectively, inhibited nitric oxide production by the RAW264.7 murine macrophage model.
Subject(s)
Ferns/chemistry , Phloroglucinol/isolation & purification , Animals , Antineoplastic Agents, Phytogenic/chemistry , Antineoplastic Agents, Phytogenic/isolation & purification , Antineoplastic Agents, Phytogenic/pharmacology , Carbon-13 Magnetic Resonance Spectroscopy , Cell Line, Tumor , Dimerization , Drug Screening Assays, Antitumor , Mice , Molecular Docking Simulation , Monoamine Oxidase Inhibitors/chemistry , Monoamine Oxidase Inhibitors/isolation & purification , Monoamine Oxidase Inhibitors/pharmacology , Phloroglucinol/chemistry , Phloroglucinol/pharmacology , Proton Magnetic Resonance Spectroscopy , RAW 264.7 Cells , Spectrometry, Mass, Electrospray Ionization , Structure-Activity RelationshipABSTRACT
Legumes are widely consumed by humans, being an important source of nutrients; however, they contain non-nutritional factors (NNFs), such as phytic acid (IP6), raffinose, stachyose, total phenolic compounds, condensed tannins, and flavonoids, that have negative effects on human health. Although vetches (Vicia sativa) are widely cultivated, they are not intended for human feeding due to their contents of NNF. Usually, the NNF are removed by cooking or germinating; however, germination is a process that requires extended time, and cooking may compromise the viability of some nutrients. To promote vetches for human consumption, the effect of the Instant Controlled Pressure Drop (DIC) process was studied as an alternative to cooking and germinating to decrease NNF contents. Results showed that compared to raw vetches, DIC treatment reduced total phenolic compounds (48%), condensed tannins (28%), flavonoids (65%), IP6 (92%), raffinose (77%), and stachyose (92%). These results are very similar to the ones achieved by traditional ways of removing NNF.
Subject(s)
Food Handling/methods , Seeds/chemistry , Vicia sativa/physiology , Cooking , Flavonoids/analysis , Germination , Nutritive Value , Oligosaccharides/analysis , Phenols/analysis , Proanthocyanidins/analysis , Raffinose/analysis , Vicia sativa/chemistryABSTRACT
Las Opuntia spp. son un recurso fitogenético Mexicano de gran valor nutritivo y alto contenido de betalaínas, compuestos conocidos por sus propiedades antioxidantes. Este estudio evaluó las características fisicoquímicas, el contenido de betalaínas y su capacidad antioxidante (CA), así como el perfil sensorial de frutos de O. robusta y O. ficusindica. Esta última presentó mayor acidez y contenido de sólidos solubles (F= 769,2; P= 0,0001), (F= 360,4; P ≤0,0001), que O. robusta. En humedad y contenido de cenizas no hubo diferencias significativas entre ambas especies. La concentración de betalaínas fue superior en Opuntia robusta (F=529,1; P= ≤0,0001) betacianinas (0,114 mg/mL pulpa) y betaxantinas (0,073 mg/ mL de pulpa), en O. ficus-indica (0,023 mg/ mL de pulpa y 0,0198 mg/ mL de pulpa). Se encontraron diferencias significativas en la CA (F=545,9; P ≤0,0001), en O. ficus-indica hasta 195,38 µmol equivalente Trolox/ mL por el método Ácido2, 2´-azino-bis-(3-etilbenzotiazolina)6-sulfónico (ABTS) y 22% de inhibición de radicales libres por el método 2,2 difenil-1-pricrilhidrazilo (DPPH), para O. robusta 165,6 µmol equivalente Trolox/ mL y más del 36% de inhibición de radicales libres. Los resultados mostraron que la CA está directamente relacionada con la concentración de betacianinas y betaxantinas. Ambas variedades de Opuntia exhiben una tendencia a lo dulce y ácido, con aromas, sabores y resabios con notas frutales y vegetales. Estos resultados sugieren que estas especies pueden ser empleadas para la extracción de betalaínas debido a su gran potencial para utilizarse en la industria como fuente de pigmentos naturales con propiedades antioxidantes y agradables características sensoriales(AU)
Opuntia spp. are a Mexican phytogenetic resource with great nutritive value and high betalains (compounds known for their antioxidant properties) content. Our main goal was to evaluate the physicochemical characteristics, betalains concentration and antioxidant capacity (AC), as well as sensory profiles of Opuntia robusta and O. ficus-indica, where the later one showed higher acidity and soluble solids content (F= 769.2; P= 0.0001 and F= 360.4; P ≤0.0001 respectively) than O. robusta. There was no significant difference between the species in terms of humidity and ash content. Betalains concentrations were higher in Opuntia robusta (F=529.1; P= ≤0.0001), while betacyanins (0.114 mg/ mL pulp) and betaxantins (0.073 mg/ mL de pulp) were higher in O. ficus-indica (0.023 mg/ mL pulp and 0.0198 mg/ mL de pulp). Significant differences for AC were found (F=545.9, P ≤0.0001), with O. ficus-indica showing up to 195.38 µmol Trolox equivalent / mL by the method 2,2'-Azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) (ABTS) and 22% of free radicals inhibition by the method 2, 2 diphenyl-1-pricrylhydrazyl (DPPH), while 165.6 µmol Trolox equivalent / mL and more than 36% free radicals inhibition were found for O. robusta. Results showed that the antioxidant capacity is directly related with betacyanins and betaxantines concentration. Both Opuntia varieties exhibit a tendency to sweetness and acidity, with aromas, flavors and scents within fruity and vegetable notes. These results suggest that both species could be used in the extraction of betalains due to their great industrial potential as a source of natural pigments with antioxidant properties and pleasant sensorial characteristics(AU)
Subject(s)
Humans , Male , Female , Opuntia , Betalains/biosynthesis , Neoplasms/prevention & control , Antioxidants/physiology , Diet, Food, and NutritionABSTRACT
Galactooligosaccharides (GOS) are prebiotics produced from lactose through an enzymatic reaction. Employing an immobilized enzyme may result in cost reductions; however, the changes in its kinetics due to immobilization has not been studied. This study experimentally determined the optimal reaction conditions for the production of GOS from lactose by ß-galactosidase (EC 3.2.1.23) from Kluyveromyces lactis covalently immobilized to a polysiloxane-polyvinyl alcohol (POS-PVA) polymer activated with glutaraldehyde (GA), and to study the transgalactosylation kinetics. Yield immobilization was 99 ± 1.1% with 78.5 ± 2.4% enzyme activity recovery. An experimental design 24 with 1 center point and 2 replicates was used. Factors were lactose [L], enzyme concentration [E], pH and temperature (T). Response variables were glucose and galactose as monosaccharides [G1], residual lactose [Lac]r and GOS as disaccharides [G2] and trisaccharides [G3]. Best conditions were pH 7.1, 40 °C, 270 gL-1 initial lactose concentration and 6 U mL-1 enzyme concentration, obtaining 25.46 ± 0.01 gL-1 yield of trisaccharides. Although below the HPLC-IR detection limit, tetrasaccharides were also identified after 115 min of reaction. The immobilization protocol was then optimized by diminishing total reactant volumes : support ratio, resulting in improved enzyme activity synthesizing 43.53 ± 0.02 gL-1 of trisaccharides and 13.79 ± 0.21 gL-1 of tetrasaccharides, and after four cycles remaining relative activity was 94%. A reaction mechanism was proposed through which a mathematical model was developed and rate constants were estimated, considering a pseudo steady-state hypothesis for two concomitant reactions, and from this simplified analysis, the reaction yield could eventually be improved. © 2017 American Institute of Chemical Engineers Biotechnol. Prog., 33:1568-1578, 2017.