28 resultados para HPLC-DAD-MS
Resumo:
Foeniculum vulgare Mill. (fennel) and Matricaria recutita L. (chamomile) are two examples of plants with reported antioxidant and antimicrobial properties, which can be related with their composition in phenolic compounds [1,2]. Furthermore, according to previous results of our research group, the direct incorporation of the aqueous extracts showed capacity to maintain the nutritional properties of the cottage cheeses, up to 7 days of storage, while improving the antioxidant potential. However, after 14 days, a decrease in the antioxidant properties was observed [1,2], which can be related with factors such as light, moisture, temperature and pH, that can cause bioactive compounds degradation. Therefore, the aim of the present study was to prepare microcapsules with the aqueous extracts of fennel and chamomile for incorporation in cottage cheese samples, in order to protect the bioactive molecules present in the extracts, such as phenolic compounds, and prevent the decrease of the antioxidant activity observed after the 14 days period. The microspheres were prepared using an atomization/coagulation technique. Sodium alginate was used as the matrix material to produce the microspheres that were characterized through optical microscopy (OM), during and after atomization, for inspecting morphology. The encapsulation efficiency (EE) was determined by HPLC-DAD by an indirect method by analysing the coagulation solution. FTIR was also used to attest the presence of the extract inside of the alginate matrix. These microencapsulated extracts were incorporated in cottage cheese samples that were further characterized in terms of nutritional properties and antioxidant potential right after incorporation, and after 7 and 14 days of storage at 4•c. The EE was estimated as -100% and the FTIR analysis confirmed the presence of the extracts inside the microspheres. The results showed that the incorporation of the microencapsulated extracts did not cause changes in the nutritional value of cottage cheeses (through a comparison with control samples without extracts). The predominant fatty acids were palmitic (C16:0) and oleic (CI8:0) acids. The order of abundance of fatty acids was as follows: saturated fatty acids (SF A)> monounsaturatcd fatty acids (MUF A)> polyunsaturated fatty acids (PUF A). Regarding free sugars, lactose was the only sugar identified and quantified in all samples. Regarding the antioxidant activity, the samples functionalized with the microencapsulated extracts showed a higher preservation of this property even after the 7th day of storage. Overall, the incorporation of the protected plant extracts in dairy foods can be a strategy to provide health benefits to consumers.
Resumo:
Synthetic additives used in a wide variety of food products have been associated to some toxic effects. This conducted to an increasing interest of consumers for natural additives, including food preservers [1]. Many aromatic herbs have been used to prepare bioactive extracts with benefits to the consumer's health. Foeniculum vulgare Mill. (fennel) and Matricaria recutita L. (chamomile) are examples of popular herbs rich in phenolic compounds with documented antioxidant and antimicrobial properties [2,3]. The present work confirms the antioxidant (DPPH scavenging activity, reducing power and lipid peroxidation inhibition) and antimicrobial (against bacteria such as Bacillus cereus and Salmonella Typhimurium and fungi such as Aspergillus niger, A. versicolor and PenicilliumfimicuJosum) activities of fennel and chamomile extracts, obtained by decoction. The chemical characterization of the extracts, performed by HPLC-DAD-ESIIMS, revealed the presence of five flavonoids (mainly qercetin-3-0- glucoside) and twelve phenolic acids (mainly 5-0-caffeolyquinic acid) for fennel extract and the presence of nine flavonoids (mainly luteolin-0-glucuronide) and ten phenolic acids (mainly di-caffeoyl-2,7- anhydro-3-deoxy-2-octulopyranosonic acid) for chamomile extract. Due to their high antioxidant and antimicrobial activities, both extracts were then incorporated (at DPPH scavenging activity EC25 value: 0.35 mg/mL and 0.165 mg/mL for fennel and chamomile, respectively) in cottage cheeses (prepared by Queijos Casa Matias Lda) as natural additives with two objectives: to increase the shelf-life of the cottage cheeses and to provide bioactive properties to the final products. The results showed that the use of these natural extracts did not alter significantly the nutritional characteristics of the cottage cheese in comparison with control samples (cottage cheese without extracts), but improved its antioxidant potential (more evident in the samples with chamomile extract). After 14 days of storage, only the control samples showed signs of degradation. Overall, the present study highlights the preservation potential of fennel and chamomile extracts in cottage cheeses, improving also their bioactivity.
Resumo:
Vaccinum myrtillus L. belongs to Ericaceae family, being commonly known for its sweet small fruits: the blueberries. Widely consumed in fresh, these fruits are also used in jams and marmalades due to their digestive and hypoglycemic properties and also due to the presence of several bioactive compounds [!]. Therefore, it has become a very appealing matrix in the development of functional products that, beyond their nutritional properties, will add a long-term beneficial physiological/health effect [2]. In the present work, three novel blueberry based products developed by RBR Foods Company (Portugal), were characterized in terms of their nutritional and chemical properties: carbohydrates, ash, proteins, fat and energetic value (following official methods of food analysis), fatty acids profile (by CG-FID), soluble sugars (by HPLCRI), organic acids (by HPLC-DAD) and tocopherols (by HPLC-fluorescence). The products result from a mixture of the fruits with rose petals (PI), marigold petals (P2) and apple and goji berries (P3). The blueberry fruits were used as control sample. The nutritional profile of the novel products was very similar to the control sample: the carbohydrates were the most abundant macronutrient, followed by proteins and total fat. Regarding sugars, fructose, glucose and sucrose were identified in all the samples. P 1 and P2 didn't show significant differences in comparison to the control, however, P3 revealed a lower concentration of sugars. In terms of fatty acids composition, all the studied samples presented higher contents in polyunsaturated fatty acids, especially due to the contribution of linoleic and alinolenic acids. The results of tocopherols revealed that the control sample only presented two isoforrns of tocopherols, a- and y-tocopherol, being the same observed in P3. However, P 1 revealed the presence of all the isoforrns of tocopherols, while P2 was lacking otocopherol; which is related with the contribution of rose and marigold petals, respectively. The a-tocopherol isoforrn was the most abundant in all the studied samples. Overall, this work contributed to the nutritional characterization of novel blueberry based products and is a part of a wider project that aims the detailed study of these products, namely their potential to be used as functional foods.
Resumo:
Cynara scolymus L. (artichoke) and Silybum marianum (L.) Gaertn (milk thistle), belonging to the Asteraceae family, are medicinal plants vo.ith well-reported antioxidant and hepatoprotective effects. Widely consumed as infusions, these plants can also be found in several formulations to allow an easier consumption. The bioactivity of infusions, pills, and syrups based on artichoke and milk thistle was previously reported by our research group [1 ,2] and among the various phytochemicals present in these dietary supplements, phenolic compounds are pointed out as the most responsible for their beneficial properties. With the aim of studying the antimicrobial activity and possible relation vo.ith the phenolic composition, two different formulations of each plant were assessed (pills and syrups). The phenolic profiles were obtained by HPLC-DAD-ESIIMS, and the antimicrobial activity was performed with clinical isolates from hospitalized patients, namely Escherichia coli, Escherichia coli spectrum extended producer of P-lactarnases (ESBL), Proteus mirabilis, Pseudomonas aeruginosa, and methicillin-resistant Staphylococcus aureus (MRSA). Vanillic acid (5.58 J.tg/g) and luteolin-7-0-glucoside (2.2 J.tg/g) were the most abundant compounds in artichoke syrup, that did not reveal antimicrobial activity against the studied strains, which could be due to their low concentrations. On the other hand, artichoke pills presented a prevalence of 5-0-caffeoylquinic (28.2 J.tg/g), 1,3-dicaffeoylquinic (24 J.tg/g), and 4-0-Caffeoylquinic acids (13.3 J.tg/g); revealing the capacity to inhibit MRSA vo.ith a MIC value of 1.9 mg!g. Regarding milk thistle, isorhamnetin-0-deoxyhexoside-0-hexoside, isorhamnetin-3-0-rutinoside, and isorhamnetin-0-deoxyhexoside-0-dihexoside were the major compounds detected in the syrup, in concentrations of 7.26, 5. 75, and 3.64 J.tg/g, respectively. This formulation proved to be able to inhibit the growth of E. coli, ESBL, MRSA and P. aeruginosa, with MIC values ranging from 0.2 to 1.3 mg!mL. Hydroxylated silibinin (1.565 J.!g/g) was the major flavonoid found in the pills, that revealed antimicrobial activity against ESBL, with a MIC value of 15 mg!mL, but did not inhibit the growth of the remaining bacteria None of the studied samples was able to inhibit P. mirabilis at the studied concentrations (1000 and 26.4 mg!mL for the syrups of artichoke and milk thistle, respectively; 150 mg/mL for both pills). Overall, the studied syrups and pills of artichoke and milk thistle revealed to be a good source of phenolic compounds, with some of these formulations revealing antimicrobial activity.
Resumo:
Tomato (Lycopersicon esculentum Mill.), apart from being a functional food rich in carotenoids, vitamins and minerals, is also an important source of phenolic compounds [1 ,2]. As antioxidants, these functional molecules play an important role in the prevention of human pathologies and have many applications in nutraceutical, pharmaceutical and cosmeceutical industries. Therefore, the recovery of added-value phenolic compounds from natural sources, such as tomato surplus or industrial by-products, is highly desirable. Herein, the microwave-assisted extraction of the main phenolic acids and flavonoids from tomato was optimized. A S-Ieve! full factorial Box-Behnken design was implemented and response surface methodology used for analysis. The extraction time (0-20 min), temperature (60-180 "C), ethanol percentage (0-100%), solidlliquid ratio (5-45 g/L) and microwave power (0-400 W) were studied as independent variables. The phenolic profile of the studied tomato variety was initially characterized by HPLC-DAD-ESIIMS [2]. Then, the effect of the different extraction conditions, as defined by the used experimental design, on the target compounds was monitored by HPLC-DAD, using their UV spectra and retention time for identification and a series of calibrations based on external standards for quantification. The proposed model was successfully implemented and statistically validated. The microwave power had no effect on the extraction process. Comparing with the optimal extraction conditions for flavonoids, which demanded a short processing time (2 min), a low temperature (60 "C) and solidlliquid ratio (5 g/L), and pure ethanol, phenolic acids required a longer processing time ( 4.38 min), a higher temperature (145.6 •c) and solidlliquid ratio (45 g/L), and water as extraction solvent. Additionally, the studied tomato variety was highlighted as a source of added-value phenolic acids and flavonoids.
Resumo:
As flores de Bauhinia variegata var candida apresentam coloração branca e são vulgarmente conhecidas como “patas de vaca branca”, sendo muito utilizadas na cozinha gourmet como forma de aumentar a qualidade sensorial e nutricional dos alimentos [1,2]. No presente estudo, as flores foram submetidas a radiação por feixe de eletrões em diferentes doses (0,5 e 0,8 kGy) como forma de descontaminação, e seguidamente analisadas em termos de parâmetros nutricionais (humidade, proteínas, gordura, hidratos de carbono e cinzas) e perfis em açúcares livres (HPLCRI), ácidos gordos (GC-FID), tocoferóis (HPLC-Fluorescência) e ácidos orgânicos (HPLC-DAD). As amostras não irradiadas e irradiadas mostraram um perfil nutricional semelhante, sendo os hidratos de carbono os nutrientes mais abundantes, seguidos das proteínas, gorduras e cinzas. Os perfis em açúcares foram também similares, estando presente a frutose em maior quantidade, seguida da glucose e da sacarose. Os ácidos mirístico (C14:0), palmítico (C16:0), esteárico (C18:0) e oleico (C18:1n9), foram os ácidos gordos mais abundantes. Os ácidos gordos saturados (SFA) foram os mais abundantes, seguidos dos mono (MUFA) e polinsaturados (PUFA). Neste caso, com maior dose de radiação verificou-se que a percentagem de SFA e MUFA diminui ligeiramente (principalmente pelo aumento dos ácidos esteárico e oleico, respetivamente), aumentando a percentagem de PUFA (principalmente pelo aumento dos ácidos linoleico e α-linolénico). No que respeita aos tocoferóis, só a isoforma α foi encontrada, apresentando aproximadamente o mesmo conteúdo nas amostras irradiadas e não irradiadas (1,75±0,06 mg/mL). O ácido cítrico foi o ácido orgânico mais abundante nas amostras, seguido dos ácidos: málico, ascórbico, oxálico e fumárico. Também neste caso os valores mantiveram-se, com exceção do ácido cítrico que aumentou ligeiramente com as doses de irradiação (55,94, 61,70 e 67,64 mg/mL, respetivamente). Em síntese, verificou-se que as doses de irradiação aplicadas não alteraram significativamente a composição química das amostras em estudo, e pode ser considerada uma técnica de descontaminação e preservação de flores comestíveis.
Resumo:
Os cogumelos comestíveis são uma fonte rica de moléculas bioativas que lhes conferem importantes atividades biológicas. Moléculas como os Polissacáridos, terpenóides e os compostos fenólicos têm sido descritos como os componentes mais importantes no que respeita á atividade anti-inflamatória dos cogumelos (1). No presente trabalho, os extratos etanólicos de cogumelos comestíveis foram obtidos por maceração e caracterizados quimicamente em termos de ácidos fenólicos por técnicas de HPLC-DAD. Além disso, derivados metilados e glucuronados dos ácidos fenólicos identificados foram também sintetizados com o objetivo de mimetizar reações de metabolização no organismo e estudar a capacidade destas moléculas de manter a bioatividade exibida inicialmente. Os extratos obtidos, os ácidos fenólicos e compostos sintetizados foram avaliados pela sua atividade anti-inflamatória. De entre as amostras analisadas, B. impolitus revelou o mais elevado conteúdo em ácidos fenólicos (675 ± 23 μg/g), seguido de C. cibarius > A. caesaria > L. deliciosus > B. aereus > M. esculenta > B. edulis; devido à contribuição do ácido cinâmico que foi encontrada em maior quantidade nesta amostra (505 ± 12 μg/g). Mais ainda, B. impolitus apresentou também maior inibição da produção de NO (EC50=166 ± 10 μg/mL) seguido das amostras A. caesaria > C. cibarius > L. deliciosus > M. esculenta > B. aereus > B. edulis. No que respeita aos compostos individuais, o ácido cinâmico (CA) revelou a atividade mais forte (EC50 = 182 ± 16 μM), seguido pelos ácidos p-hidroxibenzóico (HA) (239 ± 29 μM) e p-Cumárico (CoA) (442± 33 μM), o que realça a importância destas moléculas para a atividade anti-inflamatória dos cogumelos. Comparando a atividade exibida pelos ácidos fenólicos com os respetivos derivados, é possível verificar a seguinte ordem de atividades: ácido p-hidroxibenzóico: HA > HA-M3 > HA-M2 > HA-M1 > HA-G; ácido p-cumárico : CoA-M1 > CoA-G > CoA-M2 > CoA-M3 > CoA e ácido cinâmico: CA-G > CA > CA-M1. Perante os resultados obtidos é de realçar a importância dos ácidos fenólicos na contribuição para a bioatividade exibida pelos cogumelos em estudo. Mais ainda, foi possível concluir que as alterações das moléculas pelas reações de conjugação no organismo têm influência na bioativade das moléculas iniciais, sendo que muitas vezes esta atividade é aumentada.
Resumo:
Vaccinum myrtillus L. pertence à família Ericaceae, sendo comumente conhecida pelos seus pequenos frutos e doces: os mirtilos. Largamente consumidos em fresco, estes frutos também são usados em compotas e marmeladas, devido à suas propriedades digestivas e hipoglicémicas bem como, devido à presença de vários compostos bioativos [1]. Portanto, tornou-se uma matriz muito apelativa para o desenvolvimento de novos produtos funcionais que, para além das suas propriedades nutricionais, adicionam um efeito benéfico fisiológico e para a saúde de longo prazo [2]. No presente trabalho, três novos produtos desenvolvidos pela RBR Foods Company (Portugal) tendo como base o mirtilo, foram caracterizados pelas suas propriedades nutricionais e químicas: hidratos de carbono, cinzas, proteínas, gordura e valor energético (seguindo métodos oficiais de análise de alimentos AOAC), perfil de ácidos gordos (por GC-FID), açúcares solúveis (por HPLC-RI), ácidos orgânicos (por HPLC-DAD) e tocoferóis (por HPLC de fluorescência). Os produtos resultam de uma mistura dos frutos com pétalas de rosa (P1), pétalas de calêndula (P2) e bagas goji e maçã (P3). Os frutos de mirtilo foram utilizados como amostra de controlo. O perfil nutricional dos novos produtos mostrou-se muito semelhante ao da amostra controlo: os hidratos de carbono foram os macronutrientes mais abundantes, seguido de proteínas e de gordura total. Em relação aos açúcares, frutose, glucose e sacarose foram identificados em todas as amostras. P1 e P2 não apresentaram diferenças significativas em relação ao controlo, no entanto, P3 revelou uma menor concentração de açúcares. Em termos de composição de ácidos gordos, todas as amostras estudadas apresentaram maiores teores em ácidos gordos polinsaturados, especialmente devido à contribuição dos ácidos linoléico e alfa-linolénico. Os resultados de tocoferóis revelaram que a amostra controlo apresentou apenas duas isoformas de tocoferóis, α- e γ-tocoferol, sendo a mesmo observado em P3. No entanto, P1 revelou a presença de todas as isoformas de tocoferóis, enquanto P2 não apresentaou δ-tocoferol; Estes resultados estão relacionados com a contribuição das pétalas de rosa e calêndula, respetivamente. A isoforma α-tocoferol foi a mais abundante em todas as amostras estudadas. Em geral, este trabalho contribuiu para a caracterização de novos produtos nutricionais com base de mirtilo sendo parte de um projecto mais abrangente que tem por objetivo o estudo detalhado destes produtos, para serem utilizados como alimentos funcionais.
Resumo:
Salvia species are used worldwide for medicine purposes. In general, these medicinal plants have high amounts of flavonoids and phenolic acids, that are thought to be closely related to their health properties [1,2]. In this work, the aerial parts of Salvia farinacea, Salvia mexico, Salvia greggii and Salvia officinalis were extracted with hot water [3]. Extracts were evaluated for their total phenolic content by an adaptation of the Folin-Ciocalteu method and further analysed by high performance liquid chromatography associated with electrospray mass spectrometry (HPLC-DAD-ESI-MSn) in the negative ion mode [4], in order to identify their individual phenolic constituents. The aqueous extracts of S. farinacea, S. mexico, S. officinalis and S. greggii contained, respectively, 106±13, 159±38, 175±46 and 136±1 μg GAE/mg of total phenolics. These four species were characterized by a clear prevalence of caffeic acid derivatives, in particular of rosmarinic acid (MW 360), that is generally the most abundant phenolic compound in Salvia species [2,3]. In addition, S. mexico and S. officinalis contained moderate amounts of salvianolic acid B (MW 718). Among these two, S. mexico was richer in O-caffeoylquinic acid (MW 354), while the latter presented high amounts of salvianolic acid K (MW 556) and moderate amounts of its structural isomer. All the extracts were enriched in flavones: S. farinacea and S. officinalis contained high amounts of luteolin-O-glucuronide while S. mexico contained luteolin-C-glucoside with respective characteristic mass spectrometry fragmentation pattern m/z at 461→285 and m/z at 447→357, 327. Similarly, S. greggii extract presented high content of luteolin-7-O-glucoside ([M-H]− at m/z 447→ 285) and luteolin-C-glucoside and moderate quantities of apigenin-C-hexoside ([M-H]− at m/z 431→341, 311). Further studies are being undertaken in order to understand the contribution of these phenolic constituents in the biological activities of Salvia plants.
Resumo:
Salvia species are used worldwide for medicine purposes. In general, these medicinal plants have high amounts of flavonoids and phenolic acids, that are thought to be closely related to their health properties [1,2]. In this work, the aerial parts of Salvia farinacea, Salvia mexico, Salvia greggii and Salvia officinalis were extracted with hot water [3]. Extracts were evaluated for their total phenolic content by an adaptation of the Folin-Ciocalteu method and further analysed by high performance liquid chromatography associated with electrospray mass spectrometry (HPLC-DAD-ESI-MSn) in the negative ion mode [4], in order to identify their individual phenolic constituents. The aqueous extracts of S. farinacea, S. mexico, S. officinalis and S. greggii contained, respectively, 106±13, 159±38, 175±46 and 136±1 μg GAE/mg of total phenolics. These four species were characterized by a clear prevalence of caffeic acid derivatives, in particular of rosmarinic acid (MW 360), that is generally the most abundant phenolic compound in Salvia species [2,3]. In addition, S. mexico and S. officinalis contained moderate amounts of salvianolic acid B (MW 718). Among these two, S. mexico was richer in O-caffeoylquinic acid (MW 354), while the latter presented high amounts of salvianolic acid K (MW 556) and moderate amounts of its structural isomer. All the extracts were enriched in flavones: S. farinacea and S. officinalis contained high amounts of luteolin-O-glucuronide while S. mexico contained luteolin-C-glucoside with respective characteristic mass spectrometry fragmentation pattern m/z at 461→285 and m/z at 447→357, 327. Similarly, S. greggii extract presented high content of luteolin-7-O-glucoside ([M-H]− at m/z 447→ 285) and luteolin-C-glucoside and moderate quantities of apigenin-C-hexoside ([M-H]− at m/z 431→341, 311). Further studies are being undertaken in order to understand the contribution of these phenolic constituents in the biological activities of Salvia plants.
Resumo:
Thymus plants comprise distinct species with claimed health properties [1], commonly associated to their essential oils and phenolic compounds. Albeit that, the phenolic composition and the biological activities of many Thymus species remain unclear. This work aimed to elucidate the phenolic composition and antioxidant properties of aqueous extracts from Thymus herba barona, Thymus caespetitus and Thymus fragrantissimus. The aqueous extracts of the three Thymus species were evaluated for their total phenolic compounds by an adaptation of the Folin-Ciocalteu method [2], and individual phenolic compounds were identified by high performance liquid chromatography associated with electrospray mass spectrometry (HPLC-DAD-ESI-MSn) in the negative mode. The antioxidant activity of each extract was carried out by DPPH● scavenging assay and ferric reducing antioxidant power assays [3]. Total phenolic compounds in the three extracts ranged from 236±27 (T. caespetitus) to 273±17 μg GAE/mg (T. fragrantissimus). Similarly to other Thymus species [1,4], these extracts were rich in caffeic acid derivatives (characteristic UV spectra maxima at 290 and 328 nm) and mainly composed of rosmarinic acid (MW 360). Other caffeic acid derivatives included salvianolic acid K (MW 556) and 3′-O-(8″-Z-caffeoyl)rosmarinic acid (MW 538). High amounts of the flavone luteolin-O-glucuronide ([M-H]− at m/z 461→285) were found in T. caespetitus while the others species contained moderate amounts of this compound. T. herba barona, T. caespetitus and T. fragrantissimus extracts showed high DPPH radical scavenge ability (EC50 values 11.6±0.9, 13.8±0.6 and 10.9±1.2 μg/mL respectively), as well as high reducing power (EC50 values of 35.1±4.5, 39.3±2.7 and 32.4±4.3 μg/mL, respectively), that were comparable to those of reference compounds. This work is an important contribution for the phytochemical characterization and the antioxidant capacity of these three Thymus species.
Resumo:
Thymus plants comprise distinct species with claimed health properties [1], commonly associated to their essential oils and phenolic compounds. Albeit that, the phenolic composition and the biological activities of many Thymus species remain unclear. This work aimed to elucidate the phenolic composition and antioxidant properties of aqueous extracts from Thymus herba barona, Thymus caespetitus and Thymus fragrantissimus. The aqueous extracts of the three Thymus species were evaluated for their total phenolic compounds by an adaptation of the Folin-Ciocalteu method [2], and individual phenolic compounds were identified by high performance liquid chromatography associated with electrospray mass spectrometry (HPLC-DAD-ESI-MSn) in the negative mode. The antioxidant activity of each extract was carried out by DPPH● scavenging assay and ferric reducing antioxidant power assays [3]. Total phenolic compounds in the three extracts ranged from 236±27 (T. caespetitus) to 273±17 μg GAE/mg (T. fragrantissimus). Similarly to other Thymus species [1,4], these extracts were rich in caffeic acid derivatives (characteristic UV spectra maxima at 290 and 328 nm) and mainly composed of rosmarinic acid (MW 360). Other caffeic acid derivatives included salvianolic acid K (MW 556) and 3′-O-(8″-Z-caffeoyl)rosmarinic acid (MW 538). High amounts of the flavone luteolin-O-glucuronide ([M-H]− at m/z 461→285) were found in T. caespetitus while the others species contained moderate amounts of this compound. T. herba barona, T. caespetitus and T. fragrantissimus extracts showed high DPPH radical scavenge ability (EC50 values 11.6±0.9, 13.8±0.6 and 10.9±1.2 μg/mL respectively), as well as high reducing power (EC50 values of 35.1±4.5, 39.3±2.7 and 32.4±4.3 μg/mL, respectively), that were comparable to those of reference compounds. This work is an important contribution for the phytochemical characterization and the antioxidant capacity of these three Thymus species.
Resumo:
A perceção, as opiniões e os desejos dos consumidores têm um enorme impacto na indústria alimentar. Na perceção visual, a cor torna-se um fator fundamental e, neste campo, os corantes alimentares assumem uma extrema importância. A cor pode ser considerada um dos atributos mais impressionantes dos géneros alimentícios, que influencia diretamente a preferência e a seleção dos consumidores[1]. Existem muitos corantes naturais utilizados na indústria alimentar, tais como carotenóides, antocianinas e betalaínas. As betalaínas incluem compostos com cores que vão do vermelho-violeta (betacianidinas) ao amarelo-laranja (betaxantinas). As betalaínas não têm sido tão extensamente estudadas como as antocianinas, mas possuem uma capacidade corante três-vezes maior. A única betalaína autorizada como corante natural deriva da beterraba(E-162)[2], mas existem outras fontes alternativas de betacianidinas ,como a que se apresenta neste trabalho: Gomphrenaglobosa L., vulgarmente designada por perpétua roxa.
