Milky Stage Versus Dough Stage of Immature Wheat Grain: Effects on Phytic Acid and Fructan Contents, Antioxidant Activity, Textural Parameters, and Sensory Characteristics of Set-Type Yoghurts

HIGHLIGHTS Yoghurts were supplemented with milky and dough stage wheat grain flours. Total antioxidant capacity was improved by wheat grain flour supplementation. Milky stage wheat provided higher fructan content than that of dough stage wheat. Fermentation reduced phytic acid levels in yoghurts containing wheat grain flours.

Abstract Experimental design was performed by using immature wheat grain (IWG) harvested in two different maturation stages for set-type yoghurt production. IWG was harvested at milky (20 days after anthesis) and dough (30 days after anthesis) stages and was milled. Yoghurt samples were supplemented with milky stage grain flour (MSGF) and dough stage grain flour (DSGF) at 1, 2, and 3% concentrations except for control. All treatments were evaluated with respect to physicochemical, antioxidative, microbiological, textural, and sensorial aspects throughout the 28 days of storage. Phytic acid content of all samples diminished depending on increasing pH values over the storage while it was found higher in MSGF fortified yoghurts. The highest fructan content was determined in yoghurt fortified with 3% MSGF. Antioxidant activity and total phenolic content of yoghurts were improved with IWG fortification. MSGF showed higher antioxidant activity as compared to DSGF. On the other hand, DSGF addition presented better water holding capacity in comparison with MSGF. Likewise, DSGF provided higher firmness and consistency values. Firmness was enhanced with IWG supplementation by reducing syneresis except 1% MSGF added samples. The addition of IWG was found to slightly increase the growth of yoghurt bacteria. Both DSGF and MSGF had adverse effect on the sensory characteristics of yoghurts with their increasing concentrations. Based on the results of this study, to obtain better textural properties and higher antioxidant activity, IWG in different ripening stages can be tried with half combinations (total 3%) in yoghurt. Also, sensorial properties can be improved by flavoring agents.

Exohidrolasas fructosílicas y su importancia en el metabolismo de fructanos en Agave tequilana Weber var. azul / Fructan exohydrolases y its importance in the metabolism of fructans in Agave tequilana Weber var. azul / Exoidrolases de frutanos e sua importância no metabolismo de frutanos em Agave tequilana Weber var. azul

Resumen Los fructanos son carbohidratos de estructura química diversa distribuidos en diferentes taxa. En las plantas, además de constituir una importante fuente de carbono, han sido asociados con la tolerancia a diferentes tipos de estrés. La biosíntesis de estos compuestos se lleva a cabo por la acción de las enzimas fructosiltransferasas, mientras que su degradación es mediada por las exohidrolasas fructosílicas, ambos tipos forman parte de la familia 32 de las enzimas hidrolasas glicosídicas. Las exohidrolasas fructosílicas son exoenzimas que liberan secuencialmente residuos de fructosa terminales de los fructanos para hacerlos disponibles como fuente de carbono en diferentes procesos celulares o bien moléculas de señalización. En esta revisión se hace una descripción de los fructanos y las exohidrolasas fructosílicas en algunas plantas importantes para el consumo humano y para el aprovechamiento industrial, con un enfoque particular en el género Agave, específicamente en A. tequilana. Concluimos, que el estudio de las exohidrolasas fructosílicas en agaves podría ser útil en varias aplicaciones biotecnológicas como en la hidrólisis de estructuras de fructanos no digeridos durante la etapa de cocción del agave en el proceso de producción de tequila. Sin embargo, el primer paso es conocer la funcionalidad de estas enzimas, lo que podría facilitar su incorporación en diferentes procesos biotecnológicos.

Abstract Fructans are carbohydrates of diverse chemical structure that are distributed in different taxa. In plants, in addition to be an important source of carbon, they have been associated with tolerance to different types of stress. The biosynthesis of these compounds is carried out by the action of enzymes called fructosyltransferases, while their degradation is mediated by fructan exohydrolases, both types are part of the 32 family of glycosidic hydrolase enzymes. Fructan exohydrolases are exo-enzymes that sequentially release terminal fructose residues from fructans to make them available as carbon sources for different cellular processes or as signaling molecules. In this review, a description is made of fructans, y of fructosyl exohydrolases in some plants important for human consumption or for industrial use, such as the Agave genus, specifically in A. tequilana. We conclude that the study of fructan exohydrolases in agaves could be useful in various biotechnological applications, for example, in the hydrolysis of undigested fructan structures during the agave cooking stage in the tequila production process. However, the first step is to determinate the enzymatic activity in which they are involved, for its posterior inclusion in biotechnology processes.

Resumo Os frutanos são carboidratos de estrutura química diversificada distribuídos em diferentes táxons. Nas plantas, além de serem uma importante fonte de carbono, eles têm sido associados à tolerância a diferentes tipos de estresse. A biossíntese desses compostos é realizada pela ação das enzimas fructosiltransferases, enquanto sua degradação é mediada por frutossil exohidrolases, ambos os tipos fazem parte da família 32 de enzimas glicosídicas da hidrolase. As exo-hidrolases de frutossil são exo-enzimas que liberam seqüencialmente resíduos terminais de frutose dos frutanos para torná-los disponíveis como fonte de carbono em diferentes processos celulares, ou como sinalizadores. Nesta revisão, é feita uma descrição dos frutanos e das frutossil exohidrolases em algumas plantas importantes para o consumo humano ou para uso industrial, como o gênero Agave, especificamente no A. tequilana. Concluímos que o estudo de frutossil exo-hidrolases em agaves pode ser útil em várias aplicações biotecnológicas, por exemplo, na hidrólise de estruturas de frutano não digeridas durante a fase de cozimento da agave no processo de produção de tequila. Para isso, o primeiro passo é conhecer o tipo de atividade enzimática que eles desempenham, para sua posterior inclusão no campo da biotecnologia.

Short-chain fructo-oligosaccharides produced by enzymatic hydrolysis enhance the growth of probiotics isolated from cultured milk drinks

Aims@#Short-chain fructo-oligosaccharides (scFOSs) are good prebiotics that enhance the growth of probiotic bacteria. The aim of this study is to determine the effect of scFOSs produced by levan hydrolysis using recombinant endo-levanase from B. lehensis G1 on the growth of probiotics isolated from commercially cultured milk drinks. @*Methodology and results@#Two probiotic bacteria, Lactobacillus casei and L. rhamnosus, were isolated from commercially cultured milk drinks. ScFOSs were produced by levan hydrolysis using recombinant endo-levanase from B. lehensis G1. The scFOS and levan (control) were added independently to the growth medium, and the growth rates of the probiotic bacteria were determined. Results showed that the growth rate of L. casei decreased in the presence of levan compared with the control medium but increased by approximately 20% when supplemented with scFOS produced by Levblg1-N28S. Similarly, the growth rate of L. rhamnosus increased by approximately 20% when supplemented with scFOS produced by Levblg1 and Levblg1-N28S. @*Conclusion, significance and impact of study@#The scFOSs produced by the enzymatic hydrolysis of levan using a recombinant endo-levanase from B. lehensis G1 have significant potential as prebiotics because they were able to promote the growth of the probiotic bacteria.

Fermentation of purple Jerusalem artichoke extract to improve the α-glucosidase inhibitory effect in vitro and ameliorate blood glucose in db/db mice

BACKGROUND/OBJECTIVES: Jerusalem artichoke has inhibitory activity against α-glucosidase and decreases fasting serum glucose levels, which may be related to its fructan content. The biological activity of fructan can be influenced by the degree of polymerization. Thus, in this study, the inhibitory effects of original and fermented purple Jerusalem artichoke (PJA) on α-glucosidase were compared in vitro. Additionally, the anti-diabetes effect of Lactobacillus plantarum-fermented PJA (LJA) was studied in a non-insulin-dependent diabetes mellitus animal model (C57BIKsJ db/db). MATERIALS/METHODS: The water extract of PJA was fermented by L. plantarum, and two strains of Bacillus subtilis to compare their anti-α-glucosidase activities in vitro by α-glucosidase assays. The anti-diabetes effect of LJA was studied in a non-insulin-dependent diabetes mellitus animal model (C57BIKsJ db/db) for seven weeks. During the experiment, food intake, body weight, and fasting blood glucose were measured every week. At the end of the treatment period, several diabetic parameters and the intestinal α-glucosidase activity were measured. RESULTS: The LJA showed the highest α-glucosidase inhibitory activity in vitro. In the in vivo study, it resulted in a significantly lower blood glucose concentration than the control. Serum insulin and HDL cholesterol levels were significantly higher and the concentrations of triglycerides, non-esterified fatty acids, and total cholesterol were significant lower in mice treated with LJA after seven weeks. In addition, the intestinal α-glucosidase activity was partially inhibited. CONCLUSIONS: These results suggested that LJA regulates blood glucose and has potential use as a dietary supplement.

Fermentation of purple Jerusalem artichoke extract to improve the α-glucosidase inhibitory effect in vitro and ameliorate blood glucose in db/db mice

BACKGROUND/OBJECTIVES: Jerusalem artichoke has inhibitory activity against α-glucosidase and decreases fasting serum glucose levels, which may be related to its fructan content. The biological activity of fructan can be influenced by the degree of polymerization. Thus, in this study, the inhibitory effects of original and fermented purple Jerusalem artichoke (PJA) on α-glucosidase were compared in vitro. Additionally, the anti-diabetes effect of Lactobacillus plantarum-fermented PJA (LJA) was studied in a non-insulin-dependent diabetes mellitus animal model (C57BIKsJ db/db). MATERIALS/METHODS: The water extract of PJA was fermented by L. plantarum, and two strains of Bacillus subtilis to compare their anti-α-glucosidase activities in vitro by α-glucosidase assays. The anti-diabetes effect of LJA was studied in a non-insulin-dependent diabetes mellitus animal model (C57BIKsJ db/db) for seven weeks. During the experiment, food intake, body weight, and fasting blood glucose were measured every week. At the end of the treatment period, several diabetic parameters and the intestinal α-glucosidase activity were measured. RESULTS: The LJA showed the highest α-glucosidase inhibitory activity in vitro. In the in vivo study, it resulted in a significantly lower blood glucose concentration than the control. Serum insulin and HDL cholesterol levels were significantly higher and the concentrations of triglycerides, non-esterified fatty acids, and total cholesterol were significant lower in mice treated with LJA after seven weeks. In addition, the intestinal α-glucosidase activity was partially inhibited. CONCLUSIONS: These results suggested that LJA regulates blood glucose and has potential use as a dietary supplement.

Anatomy of the underground system in Vernonia grandiflora Less. and V. brevifolia Less. (Asteraceae)

This work dealt with the anatomy of the underground system in Vernonia grandiflora Less. and V. brevifolia Less. (Vernonieae; Asteraceae), two perennial geophytes, to elucidate their ability to sprout in the Brazilian Cerrado conditions. V. grandiflora, a subshrubby species, possessed a thickened underground system constituted by a xylopodium and many tuberous roots. The xylopodium had stem and root structure and its buds were axillary or originated from the cortical parenchyma proliferation. The tuberous roots produced by this organ were adventitious and accumulated inulin-type fructans mainly in the cortical parenchyma. The thickened underground system of V. brevifolia, an herbaceous species, was a tuberous primary root whose buds originated from the proliferated pericycle. The occurrence of these bud-forming underground systems, which stored reserve compounds, enabled these plants to survive throughout unfavourable environmental conditions in the Cerrado, such as dry season and frequent fires in the winter.

Este trabalho teve como objetivo estudar a anatomia dos sistemas subterrâneos de Vernonia grandiflora Less. e V. brevifolia Less. (Vernonieae; Asteraceae), duas geófitas perenes, a fim de esclarecer sua capacidade para brotar em condições de Cerrado. O sistema subterrâneo espessado de V. grandiflora, uma espécie subarbustiva, é constituído pelo xilopódio e por várias raízes tuberosas. O xilopódio possui estrutura mista (radicular e caulinar) e suas gemas são de origem axilar ou se originam a partir da proliferação do parênquima cortical. As raízes tuberosas produzidas por este órgão são adventícias e acumulam frutanos do tipo inulina, principalmente no parênquima cortical. Em V. brevifolia, uma espécie herbácea, o sistema subterrâneo espessado é constituído pela raiz primária cujas gemas são originadas a partir do periciclo proliferado. A ocorrência destes sistemas subterrâneos gemíferos, que armazenam compostos de reserva, permite que estas plantas sobrevivam às condições desfavoráveis do Cerrado, tais como a estação seca e os freqüentes incêndios durante o inverno.