Otimização da produção de acetil e etil ésteres pela levedura Zygosaccharomyces bailii BCV 08

Ésteres produzidos por via biotecnológica são considerados e classificados como naturais e sua demanda tem aumentado. Várias leveduras podem produzir ésteres e seu método de seleção é altamente importante para inúmeros tipos de indústrias. Trinta e quatro cepas de leveduras, isoladas de vinhos tintos em barris de carvalho elaborados na Serra Gaúcha e de queijos artesanais do Sul do Brasil, foram utilizadas neste trabalho. Cada cepa foi inoculada na superfície de meio sólido inclinado rico em glicose e nitrogênio, diretamente no frasco utilizado para a microextração em fase sólida (SPME) seguida pela injeção num cromatógrafo gasoso com detecção por espectrometria de massas (GC/MS) e quantificação utilizando detector de ionização de chama (GC-FID). O método foi desenvolvido e validado, sendo que a fibra DVB/PDMS/CAR, temperatura de extração de 80˚C e 20 minutos de aquecimento da amostra antes da extração foram as condições ótimas estabelecidas. A metodologia de superfície e resposta foi usada para a otimização da produção de acetato de etila pela levedura Zygosaccharomyces bailii BCV 08, e um planejamento fatorial 22 foi aplicado para determinar as melhores condições de temperatura de cultivo (X1, 20 até 36 ˚C) e agitação (X2, 0 a 200 rev/min). Os melhores resultados foram obtidos com a temperatura de 28 ˚C e 0 rev/min, onde houve um aumento de 60% na produção de acetato de etila. Foram avaliados os efeitos das fontes de carbono (glicose e frutose) e do mosto de uva sobre a produção de acetato de etila. A máxima concentração de acetato de etila produzida foi de 71,11 mg/L, utilizando o mosto de uva como meio. Experimentos utilizando biorreatores de 4L levaram à produção máxima de 133,74 mg/L de acetato de etila, 14,57 mg/L de hexanoato de etila, 4.093,74 mg/L de octanoato de etila e 3.775,28 mg/L de decanoato de etila.Esters produced by biotechnological means are legally labeled as natural and there is an increasing demand for these products. Several yeasts can accumulate esters, and their selection is highly interesting for many industries. Thirty-four yeast strains isolated from red wine oak barrels of Serra Gaúcha winemaking region and from homemade cheeses of Southern Brazil were used in this research. The yeasts were inoculated in agar slants of a solid medium rich in glucose and nitrogen, directly inside the extraction transparent glass vials, using a headspace solid phase microextraction (SPME) method followed by injection of gas chromatography with mass spectrometric detection (GC/MS), and quantification by flame ionization detector (GC/FID). The analytical method was developed and validated, and the DVB/PDMS/CAR fiber, extraction temperature of 80˚C, and 20 minutes of sample heating time volatilization prior to the extraction step were the best conditions. A response surface methodology was used to optimize the production of ethyl acetate by Zygosaccharomyces bailii BCV 08, which was selected, and a 22 full factorial central composite design was applied to determine the best conditions for the cultivation temperature (X1, 20 to 36 ˚C) and stirring speed (X2, 0 to 200 rev/min). The best results were found with temperature of 28 ˚C and medium agitation of 0 rev/min, with a 60% increase in ethyl acetate production. We evaluated the effect of the carbon sources (glucose and fructose) and grape must on ethyl acetate formation; the maximal yield was reached with grape must and the highest concentration of ethyl acetate produced was 71.11 mg/L. Employing experiments on bioreactors of 4L, it was possible to improve the esters production by this yeast; a maximal production of 133.74 mg/L of ethyl acetate, 14.57 mg/L of ethyl hexanoate, 4093.74 mg/L of ethyl octanoate, and 3775.28 mg/L of ethyl decanoate was reached

Otimização da produção de acetil e etil ésteres pela levedura Zygosaccharomyces bailii BCV 08

Ésteres produzidos por via biotecnológica são considerados e classificados como naturais e sua demanda tem aumentado. Várias leveduras podem produzir ésteres e seu método de seleção é altamente importante para inúmeros tipos de indústrias. Trinta e quatro cepas de leveduras, isoladas de vinhos tintos em barris de carvalho elaborados na Serra Gaúcha e de queijos artesanais do Sul do Brasil, foram utilizadas neste trabalho. Cada cepa foi inoculada na superfície de meio sólido inclinado rico em glicose e nitrogênio, diretamente no frasco utilizado para a microextração em fase sólida (SPME) seguida pela injeção num cromatógrafo gasoso com detecção por espectrometria de massas (GC/MS) e quantificação utilizando detector de ionização de chama (GC-FID). O método foi desenvolvido e validado, sendo que a fibra DVB/PDMS/CAR, temperatura de extração de 80˚C e 20 minutos de aquecimento da amostra antes da extração foram as condições ótimas estabelecidas. A metodologia de superfície e resposta foi usada para a otimização da produção de acetato de etila pela levedura Zygosaccharomyces bailii BCV 08, e um planejamento fatorial 22 foi aplicado para determinar as melhores condições de temperatura de cultivo (X1, 20 até 36 ˚C) e agitação (X2, 0 a 200 rev/min). Os melhores resultados foram obtidos com a temperatura de 28 ˚C e 0 rev/min, onde houve um aumento de 60% na produção de acetato de etila. Foram avaliados os efeitos das fontes de carbono (glicose e frutose) e do mosto de uva sobre a produção de acetato de etila. A máxima concentração de acetato de etila produzida foi de 71,11 mg/L, utilizando o mosto de uva como meio. Experimentos utilizando biorreatores de 4L levaram à produção máxima de 133,74 mg/L de acetato de etila, 14,57 mg/L de hexanoato de etila, 4.093,74 mg/L de octanoato de etila e 3.775,28 mg/L de decanoato de etila.Esters produced by biotechnological means are legally labeled as natural and there is an increasing demand for these products. Several yeasts can accumulate esters, and their selection is highly interesting for many industries. Thirty-four yeast strains isolated from red wine oak barrels of Serra Gaúcha winemaking region and from homemade cheeses of Southern Brazil were used in this research. The yeasts were inoculated in agar slants of a solid medium rich in glucose and nitrogen, directly inside the extraction transparent glass vials, using a headspace solid phase microextraction (SPME) method followed by injection of gas chromatography with mass spectrometric detection (GC/MS), and quantification by flame ionization detector (GC/FID). The analytical method was developed and validated, and the DVB/PDMS/CAR fiber, extraction temperature of 80˚C, and 20 minutes of sample heating time volatilization prior to the extraction step were the best conditions. A response surface methodology was used to optimize the production of ethyl acetate by Zygosaccharomyces bailii BCV 08, which was selected, and a 22 full factorial central composite design was applied to determine the best conditions for the cultivation temperature (X1, 20 to 36 ˚C) and stirring speed (X2, 0 to 200 rev/min). The best results were found with temperature of 28 ˚C and medium agitation of 0 rev/min, with a 60% increase in ethyl acetate production. We evaluated the effect of the carbon sources (glucose and fructose) and grape must on ethyl acetate formation; the maximal yield was reached with grape must and the highest concentration of ethyl acetate produced was 71.11 mg/L. Employing experiments on bioreactors of 4L, it was possible to improve the esters production by this yeast; a maximal production of 133.74 mg/L of ethyl acetate, 14.57 mg/L of ethyl hexanoate, 4093.74 mg/L of ethyl octanoate, and 3775.28 mg/L of ethyl decanoate was reached

Bioconversion of L-phenylalanine into 2-phenylethanol by Kluyveromyces marxianus yeasts in grape must

O 2-feniletanol é um álcool superior que possui aroma característico de pétalas de rosas. É utilizado pela indústria de perfumes e fragrâncias e em menores volumes, na indústria de alimentos. Pode ser obtido através de extratos naturais de muitas flores, da síntese química a partir do estireno e benzeno, e também, por vias biotecnológicas com o uso de microrganismos. Leveduras são consideradas microrganismos bons produtores de 2-feniletanol através da bioconversão a partir de Lfenilalanina, o precursor natural de 2-feniletanol, que é fortemente dependente do meio e das condições de cultivo. Foram testadas diferentes cepas de levedura, utilizando-se um meio semisintético. O mosto de uva foi utilizado na bioconversão a partir da Lfenilalanina e um planejamento fatorial 23 foi utilizado para a otimização da bioconversão testando-se diferentes condições de pH, temperatura e concentração de Lfenilalanina. Foram realizados cultivos com mosto de uva pasteurizado (100 ºC por 30 min) em biorreatores de 2L, testando-se diferentes sistemas de aeração e agitação, 250 rpm de agitação, 1 vvm e 250 rpm e 2 vvm e 500 rpm. A levedura Kluyveromyces marxianus CBS 6556 produziu 0,19 gL-1 de 2-feniletanol, demonstrando ser a melhor cepa produtora. No mosto de uva pasteurizado, esta cepa foi capaz de produzir 0,51 gL-1 (aumento de 60% na produção). Altos rendimentos foram encontrados a temperatura de 37 ºC, pH 7,0 e a uma concentração de L-fenilalanina de 3,0 gL-1. A aeração de 1 vvm e agitação de 250 rpm, demonstrou ser um fator importante para a bioconversão, K.marxianus CBS 6556 produziu 0,77 gL-1 de 2-feniletanol, com um rendimento de 0,62 gg-1.The 2-phenylethanol is a high alcohol, which is the characteristic aroma of the rose petals. It is mainly used for perfume and fragrance industries and, in smaller proportions, in the food industry. 2-phenylethanol can be produced through chemical synthesis with benzene or styrene, extracted from several flowers, or by biotechnology technology with some microorganisms. Yeasts are know as the best producers of 2- phenylethanol by the bioconversion from L-phenylalanine, the natural precursor of 2- phenylethanol, that is strongly affected by medium composition and culture conditions. different types of yeasts were tested, utilizing a semisintetic medium. The grape must was used in the bioconversion and a 23 factorial design was used to optimizing the bioconversion, testing different conditions of pH, temperature and L-phenylalanine concentration. Were realized cultivations with pasteurized grape must (100 ºC for 30 minutes) during bioreactor experiments, under different conditions of aeration rate and rotation speed, 250 rpm, 1 vvm and 250 rpm and 2 vvm and 500 rpm. The yeast K.marxianus CBS 6556 can produce 0.19 gL-1 of 2-phenylethanol, showed be the best producer. In the grape must, the yeast made 0.51 gL-1 of 2-phenylethanol (60 % higher production). Higher yields were found with 37 ºC, pH 7.0 and 3.0 gL-1 of Lphenylalanine. The aeration rate of 1 vvm and a speed rotation of 250 rpm was showed an the best conditions to the bioconversion, during this cultivations, K.marxianus CBS 6556 was able to produce 0.77 gL-1, and yields of 0.62 gg-1 of 2-phenylethanol

Grape Seed Oil Compounds: Biological and Chemical Actions for Health

Grape seed oil is rich in phenolic compounds, fatty acids, and vitamins, with economic importance to pharmaceutical, cosmetic, and food industry. Its use as an edible oil has also been suggested, especially due to its pleasant sensory characteristics. Grape seed oil has beneficial properties for health that are mainly detected by in vitro studies, such as anti-inflammatory, cardioprotective, antimicrobial, and anticancer properties, and may interact with cellular and molecular pathways. These effects have been related to grape seed oil constituents, mainly tocopherol, linolenic acid, resveratrol, quercetin, procyanidins, carotenoids, and phytosterols. The aim of this article was to briefly review the composition and nutritional aspects of grape seed oil, the interactions of its compounds with molecular and cellular pathways, and its possible beneficial effects on health

Development of a freeze-dried symbiotic obtained from rice bran

This study aimed to assess the growth potential of L.acidophilus and L.plantarum in rice bran, a co-product from the food industry, and subsequently develop a freeze-dried symbiotic. Furthermore, phytochemicals and antioxidant properties were analysed. The growth was measured using growth kinetics over 72 h. The total phenolic compounds were analysed by the Folin-Ciocalteau method and antioxidant potential by DPPH and ABS methods. Freeze-drying process occurred using a pilot-scale equipment (Liotop LP510), verification and quantification of probiotics occurred through molecular analyses, as DNA extraction and qPCR. As a result, there was a good growth in rice bran (p = 0.04), suggesting its prebiotic potential. Rice bran also showed significant concentrations of phenolic compounds (3.69 mgEAG/mL ± 0.04) and antioxidant activity according ABTS (8.35 μmol ET/mL ± 0.106) and DPPH (24.71 μmol ET/mL ± 7.90) methods. The bacteria concentration decreased significantly when submitted to the freeze-drying process (p = 0.001), however, they remained by the minimum concentration required for a product to be considered a symbiotic. Therefore, it was concluded that rice bran and these analysed bacteria proved to be effective for a symbiotic formulation

Molecular Properties of Red Wine Compounds and Cardiometabolic Benefits

Wine has been used since the dawn of human civilization. Despite many health benefits, there is still a lot of discussion about the real properties of its components and its actions on cells and molecular interactions. A large part of these issues permeate the fine line between the amount of alcohol that causes problems to organic systems and the amount that could be beneficial for the health. However, even after the process of fermentation, wine conserves different organic compounds from grapes, such as polysaccharides, acids, and phenolic compounds, such as flavonoids and nonflavonoids. These substances have known anti-inflammatory and antioxidant capacities, and are considered as regulatory agents in cardiometabolic process. In this study, the main chemical components present in the wine, its interaction with molecules and biological mechanisms, and their interference with intra- and extracellular signaling are reviewed. Finally, the properties of wine that may benefit cardiovascular system are also revised

Red Wine, Resveratrol and Atrial Fibrillation

Atrial fibrillation (AF) is a common cardiac arrhythmia that is associated with increased risk for cardiovascular disease and overall mortality. Excessive alcohol intake is a well-known risk factor for AF, but this correlation is less clear with light and moderate drinking. Besides, low doses of red wine may acutely prolong repolarization and slow cardiac conduction. Resveratrol, a bioactive polyphenol found in grapes and red wine, has been linked to antiarrhythmic properties and may act as an inhibitor of both intracellular calcium release and pathological signaling cascades in AF, eliminating calcium overload and preserving the cardiomyocyte contractile function. However, there are still no clinical trials at all that prove that resveratrol supplementation leads to improved outcomes. Besides, no observational study supports a beneficial effect of light or moderate alcohol intake and a lower risk of AF. The purpose of this review is to briefly describe possible beneficial effects of red wine and resveratrol in AF, and also present studies conducted in humans regarding chronic red wine consumption, resveratrol, and AF

Sensory Profile, Consumer Preference and Chemical Composition of Craft Beers from Brazil

Craft beers are known for their distinct flavor, brew, and regional distribution. They are made using top-fermenting (ale) yeast, bottom-fermenting (lager) yeast, or through spontaneous fermentation. Craft beers are consumed and produced in Brazil in large quantities. However, they present a high level of polyphenols, which affects consumer preference as they may yield a taste of bitterness to beers. In this study, we analyzed the relationship between polyphenols and bitterness as well as the composition of the main styles of craft beers and consumer preference for them. Six different styles were analyzed according to their polyphenol content, bitterness, chemical composition, sensory profile, and preference. For preference, a panel of 62 untrained assessors was used. For sensory profile, quantitative descriptive analysis was performed using expert assessors (n = 8). The most preferred style was classic American pilsner, and the least preferred was standard American lager. The most preferred style showed less bitterness (9.52) and lower polyphenol content (0.61 mg EAG/mL), total solids (6.75 °Brix), and turbidity (7.27 NTU). This beer also exhibited reduced sensory notes of malty, fruity, smoked, hoppy, and phenolic but a higher perception of floral, sweet, and yeast notes; the bitterness attribute had a reduced perception. This study advances the understanding and complexity of the sensory profile of different styles of craft beers from Southern Brazil