Ombretta Marconi scite author profile

Low-alcohol beer (0.5-1.2% v/v ethanol) is a less common brewing industry output than standard beer but there is an increasing interest in this product, as evidenced by increased attention to health and safety and government policies on alcohol and diet. The main challenge in the production of low-alcohol beer is the achievement of a product as similar as possible to regular beer, particularly concerning the content of the volatile compounds. These compounds can be lost during the physical removal of alcohol by dialysis, reverse osmosis and vacuum rectification. Consequently, an alternative technique is the use of biological methods, which involve the employment of non-conventional yeasts. In this paper, 11 non-conventional yeast strains were tested for low-alcohol beer production. The strains used belonged to two different species: Saccharomycodes ludwigii and Zygosaccharomyces rouxii. The beer samples produced by these strains were analysed for their ethanol content and main volatile compounds. The S. ludwigii strains were more suitable for brewing low-alcohol beer, especially strain DBVPG 3010, which also showed a higher content of esters and a lower amount of diacetyl compared with previous reports. The Z. rouxii strains produced an ethanol and diacetyl content above the taste threshold. This screening project can be considered as a first step towards the production of low-alcohol beer by means of new selected non-conventional yeasts. Copyright

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Production of Alcohol-Free Beer

Montanari

Marconi

Mayer

et al. 2009

101

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Determination of Free Phenolic Acids in Wort and Beer by Coulometric Array Detection

Floridi

Montanari

Marconi

et al. 2003

J. Agric. Food Chem.

111

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The simultaneous determination of 19 phenolic compounds was performed directly in wort and beer by a combination of reverse-phase high-performance liquid chromatography coupled with coulometric array detection. Chromatographic separation was achieved with an appropriate gradient of flow and a binary solvent based on phosphate buffer, methanol, and acetonitrile in a 45-min run. Eight serial coulometric detectors were used for on-line generation of voltammetric data to resolve coeluting compounds. The method was reliable and sensitive, the regression coefficient of standard calibration curves is 0.972 < or = r < or = 1.000, and the standard deviation value ranges from 0.010 to 0.129 mg/L for wort and from 0.002 to 0.332 mg/L for beer. The mean concentrations of phenolic acids were 22.1 and 33.8 mg/L, respectively, in worts and beers produced in Italy. These amounts represent 5 and 10% of the non-tannic, non-flavonoid phenols in wort and beer, respectively.

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Development of an all rice malt beer: A gluten free alternative

Mayer

Ceccaroni

Marconi

et al. 2016

LWT - Food Science and Technology

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Selenium Biofortification in Rice (Oryza sativa L.) Sprouting: Effects on Se Yield and Nutritional Traits with Focus on Phenolic Acid Profile

D’Amato

Fontanella

Falcinelli

et al. 2018

J. Agric. Food Chem.

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The contents of total Se and of inorganic and organic Se species, as well as the contents of proteins, chlorophylls, carotenoids, and phenolic acids, were measured in 10-day old sprouts of rice ( Oryza sativa L.) obtained with increasing levels (15, 45, 135, and 405 mg Se L) of sodium selenite and sodium selenate and with distilled water as control. Increasing Se levels increased organic and inorganic Se contents of sprouts, as well as the content of phenolic acids, especially in their soluble conjugated forms. Moderate levels of sodium selenite (i.e., not higher that 45 mg L) appeared the best compromise to obtain high Se and phenolic acid yields together with high proportion of organic Se while limiting residual Se in the germination substrate waste. Se biofortification of rice sprouts appears a feasible and efficient way to promote Se and phenolic acid intake in human diet, with well-known health benefits.

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