Maciej Kuligowski scite author profile

The content of polyphenols and the antioxidative properties were determined in soybean tempeh fermented by four strains of Rhizopus oligosporus. The highest concentration of polyphenols was observed in soybean fermented for 4 days by R. oligosporus strain NRRL 5905 (5.307 mg/g). The strength of antioxidative activity increased from the first day of fermentation to the fourth day, and on the fourth and fifth fermentation day it was near 12 times higher than in unfermented material. Isoflavone content and composition were analysed. The content of isoflavone aglycones (daidzein and genistein) increased up to the third day of fermentation. Fermentation time and the kind of used R. oligosporus strain are factors that enable creation of prohealthy quality of tempeh. Composición de isoflavonas, contenido de polifenoles y actividad antioxidante de las semillas de soja durante fermentación de tempeh RESUMEN Se determinaron el contenido de polifenoles y las propiedades antioxidantes en el tempeh de soja fermentada mediante cuatro cepas de Rhizopus oligosporus. Se observó que la concentración más alta de polifenoles fue en la soja fermentada durante cuatro días mediante cepa de R. oligosporus NRRL 5905 (5.307 mg/g). El poder de la actividad antioxidante aumentó desde el primer día de fermentación hasta el cuarto, además en el cuarto y quinto día de fermentación fue alrededor de doces veces mayor que en el material no fermentado. Se analizaron el contenido de isoflavonas y su composición. El contenido de isoflavonas aglicona (daidzeína y genisteína) aumentó hasta el tercer día de fermentación. El tiempo de fermentación y el tipo de cepa de R. oligosporus utilizada son factores que permiten la creación de tempeh de una calidad saludable.

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Determination of compounds responsible for tempeh aroma

Jeleń¹,

Majcher²,

Ginja³

et al. 2013

Food Chemistry

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Effect of tempe fermentation by three different strains of Rhizopus oligosporus on nutritional characteristics of faba beans

Polanowska

Grygier

Kuligowski

et al. 2020

LWT

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Development of a Sustainable, Simple, and Robust Method for Efficient l-DOPA Extraction

et al. 2019

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l-3,4-dihydroxyphenylalanine (l-DOPA) is a medically relevant compound in Parkinson’s disease therapy. Several extraction methods of l-DOPA from beans, including velvet and faba beans, have been described in the literature. However, these methods require the use of strong acids, long extraction times, or complex downstream processing, which makes the extraction of l-DOPA expensive and energy-demanding, limiting its industrial application. In addition, the stability of l-DOPA during the extraction process is critical, further complicating the extraction of adequate amounts of this amino acid. This work is the first report on a simple, rapid, greener, and robust extraction method of l-DOPA. The developed method consists of a quick homogenization step followed by a double extraction with 0.2% v/v acetic acid for 20 min and was applied to faba bean at a ratio of 1:25 with respect to the extracting solvent. This study also investigated the stability of l-DOPA during extraction and thermal treatment. The proposed method demonstrated to be robust and extraordinarily efficient for numerous cultivars of faba bean, velvet bean, and food products containing faba beans.

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Effect of Replacing Cocoa Powder by Carob Powder in the Muffins on Sensory and Physicochemical Properties

Pawłowska

Kuligowski

Jasińska‐Kuligowska

et al. 2018

Plant Foods Hum Nutr

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The increasing demand for cocoa and search for ingredients rich in bioactive compounds encouraged us to investigate the possibility of replacing it by carob powder in the muffins containing soy beans, sesame oil and flaxseeds. There was 5% addition of carob or cocoa powder to the individual doughs. The muffins with the addition of carob were characterized by improved antiradical activity (by 36% - 2,2′-azino-bis (3-ethylbenzothiazoline-6-sulfonic acid) (ABTS) method, by 83% - 2,2-diphenyl-1-picrylhydrazyl (DPPH) method), higher content of genistein (18%) and total phytosterols (17%) in the dry mass. The color differences in the carob muffins crusts were not perceptible by consumers (ΔE = 0.70 for crust, ΔE = 5.6 for crumb) and their taste was found to be less bitter and sweeter than the taste of cocoa muffins. Moreover, the addition of carob powder as well as cocoa powder resulted in good sensory quality. The high content of phytosterols, genistein and improved antiradical properties proved carob to be a source of bioactive compounds. The results show that carob powder may be used as valuable alternative muffin ingredient to cocoa.Electronic supplementary materialThe online version of this article (10.1007/s11130-018-0675-0) contains supplementary material, which is available to authorized users.

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