Search Results (5)

Mexico has a wide variety of edible plants, such as mallow and garambullo flowers. Their composition is based on nutrients (carbohydrates, proteins, lipids, vitamins, minerals), as well as phytochemicals, organic or inorganic acids, etc. For the traditional consumption of these plants, they are boiled and then combined with other ingredients. However, after a thermal treatment, their nutritional and sensory qualities are affected. In this work, we study the effect of thermal treatment on the total phenolic compounds (TPC), antioxidant capacity, and vitamin C of two edible plants from Mexico. Both plants had a high amount of TPC as ferulic acid, p-coumaric acid, caffeic acid, quercetin, and apigenin. Both plants had a high amount of TPC as ferulic acid, p-coumaric acid, caffeic acid, quercetin, and apigenin. After thermal treatment, the samples showed a high antioxidant capacity analyzed by 2,2-Diphenyl-1-picrylhydrazyl (DPPH•), 2,2′-Azino-bis(3-ethylbenzothiazoline-6-sulfonic acid (ABTS●+), and ferric reducing antioxidant power (FRAP), associated with a high retention (78 and 89%) of phenolic compounds in the food matrix. Coumarin and ferulic acid were identified in both samples, while apigenin was only found in the mallow leaves and quercetin in the garambullo flowers after thermal treatment. Vitamin C content was higher on mallow leaves compared to garambullo flowers after thermal treatment. Further research is needed to characterize and evaluate the effect in both plants. Full article

Garambullo fruit (Myrtillocactus geometrizans) is a rich source of phytochemical compounds that exhibit antioxidant, anti-hyperglycemic, and anti-inflammatory activities, helping to prevent diseases associated with oxidative stress. The objective of this study was to evaluate phenolic compound (PC), betalain (BL), betaxanthin (BX), and betacyanin (BC) contents, and in vitro biological activities (antioxidant, anti-hyperglycemic, and anti-inflammatory) in microencapsulated garambullo extract during in vitro gastrointestinal digestion and storage. Microencapsulation was performed using spray drying. Arabic Gum (GA, 10% in feed solution) and soy protein isolate (SPI, 7% in feed solution) were used as wall materials. After in vitro digestion, the microcapsules (GA, SPI) exhibited higher bioaccessibility (p ≤ 0.05) of PC, BL, BX, and BC, and higher antioxidant activity (AA), compared to the non-encapsulated extract. Both microcapsules showed bioaccessibility in anti-hyperglycemic activity: α-amylase (GA: 90.58%, SPI: 84.73%), α-glucosidase (GA: 76.93%, SPI: 68.17%), and Dipeptidyl peptidase-4 (DPP-4) (GA: 52.81%, SPI: 53.03%); and in anti-inflammatory activity: cyclooxygenase-1 (COX-1) (GA: 78.14%, SPI: 77.90%) and cyclooxygenase-2 (COX-2) (GA: 82.77%, SPI: 84.99%). During storage, both microcapsules showed a similar trend with a significant decrease (p ≤ 0.05) in PC (GA: 39.29%, SPI: 39.34%), BL (GA: 21.17%, SPI: 21.62%), BX (GA: 23.89%, SPI: 23.45%), BC (GA: 19.55%, SPI: 19.84%), and AA (GA: 41.59%, SPI: 42.51%) after 60 days at 30 °C. Both microcapsules retained anti-hyperglycemic activity evaluated by the inhibitory activity of α-amylase (GA: 68.84%, SPI: 70.18%), α-glucosidase (GA: 59.93%, SPI: 58.69%), and DPP-4 (GA: 52.81%, SPI: 53.01%), and anti-inflammatory activity evaluated by the inhibitory activity of COX-1 (GA: 82.18%, SPI: 82.81%) and COX-2 (GA: 81.11%, SPI: 81.08%). Microencapsulation protected the phytochemical compounds and in vitro biological activities by allowing controlled release during in vitro digestion compared to the non-encapsulated extract. However, after 60 days storage at 30 °C, 60% of PC and AA, 80% of BL, BX, and BC, and 20–45% of the anti-hyperglycemic and anti-inflammatory activity were lost. Full article

Garambullo is a plant with little industrial application. However, garambullo contains betalains, photosensitive phytochemical compounds, which through microencapsulation can be used in chitosan–polyvinyl alcohol (PVOH) films for application in tomato coatings. These biopackages were characterized by physical tests, water vapor permeability, puncture tests, extension, color, differential scanning calorimetry (DCS), Fourier transform infrared (FTIR) spectroscopy, and antioxidant and antimicrobial activity analyses. The influence of the biopackages on the tomato coatings was measured using parameters such as minimum weight loss close to 2% at day 9, pH of 4.6, Brix of 5.5, titratable acidity of 1 g acid/100 mL sample, and shelf life of up to 18 days. The biopackages containing betalain microcapsules had a water vapor permeability of 2 × 10⁻¹⁴ g/h·m·Pa and an elongation of 5 ± 0.5%, indicating that the package did not stretch. The deformation at the breaking point for the package without and with microcapsules was 0.569 and 1.620, respectively. With respect to color, adding white microcapsules and betalains can cause the material to darken, resulting in a yellowish color. Furthermore, the phenolic content was greater for the biopackages with betalains, while there was no significant difference in the antioxidant activity since the active compounds were not released. According to the in vitro results, the inhibition of B. cinerea was achieved on the eighth day when the active compounds were released from the microcapsules. The tomato with betalains lost 2% of its weight, and B. cinerea was inhibited, extending its shelf life to 18 days. The proposed biopackages have good properties as biopolymers and inhibit the presence of B. cinerea. Full article

Plants respond to herbivory in diverse, complex ways, ranging from avoidance or tolerance to indirect defense mechanisms such as attracting natural enemies of herbivores, i.e., parasitoids or predators, to strengthen their defense. Defense provided by parasitoids to cultivated plants is well documented and is used in biological control programs. However, its effectiveness on wild plants under natural conditions has been little studied. Such is the case of the cactus Myrtilllocactus geometrizans (known in Mexico as garambullo), which is consumed by the soft-scale insect Toumeyella martinezae (herbivore) which, in turn, is host to the parasitoid wasp Mexidalgus toumeyellus, and mutualist with the ant Liometopum apiculatum, that tenders and protects it. This study explores the role of the parasitoid as an indirect defense, by examining its effect on both the herbivore and the plant, and how this interaction is affected by the presence of the mutualistic ant. We found that scales adversely affect the cactus’ growth, flower, and fruit production, as well as its progeny’s performance, as seedlings from scale-infested garambullo plants were shorter, and it also favors the presence of fungus (sooty mold). The parasitoid responded positively to herbivore abundance, but the presence of ants reduced the intensity of parasitism. Our results show that parasitoids can function as an indirect defense, but their effectiveness is reduced by the presence of the herbivore’s mutualistic ant. Full article

The Myrtillocactus geometrizans (Mart. ex. Pfeiff.) fruit, locally called garambullo, is an important source of bioactive compounds, mainly betalains, polyphenols, and ascorbic acid. However, information on the application of post-harvest technologies that prolong the shelf life of the fruits is still insufficient. The objective of the present research was to evaluate the effect of a gelatin coating incorporating 0%, 1%, or 3% tomato oily extract (TOE), compared to a control (without coating), on the physicochemical and antioxidant properties of garambullo fruits stored for 15 days at 5 °C. The gelatin coatings with TOE significantly (p ≤ 0.05) delayed changes in weight loss, brix degrees, titratable acidity and pH, compared to the control during storage. Fruits coated with TOE-gelatin had a higher content of betalains, ascorbic acid, total phenols, and flavonoids. The results showed that a higher concentration of phytochemicals increased antioxidant activity in vitro; the maximum values found for Trolox equivalents per kg of fresh weight were 10.46 and 17.65 mM for the 2,2′-diphenyl-1-picrylhydrazyl (DPPH) and Trolox Equivalent Antioxidant Capacity Method (TEAC) tests, respectively. The gelatin coating with TOE-3% (COTE-3%) reduced water loss by 1.66 times, compared to the control. In addition, the fruits covered with COTE-3% showed the highest concentration of bioactive compounds during storage. Full article