Functional Biodiversity of Yeasts Isolated from Colombian Fermented and Dry Cocoa Beans

Delgado‐Ospina, Johannes; Triboletti, Samantha; Alessandria, Valentina; Serio, Annalisa; Sergi, Manuel; Paparella, Antonello; Rantsiou, Kalliopi; Chaves‐López, Clemencia

doi:10.3390/microorganisms8071086

Cited by 26 publications

(24 citation statements)

References 60 publications

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“…Saccharomyces cerevisiae and Wickerhamomyces anomalus were occasionally isolated from fermentation carried out in WB and PB, respectively. Our results are similar to those obtained by several authors that reported most isolated yeasts species belonging to several genus such as Pichia, Candida, Saccharomyces, Saccharomycopsis, Schizosaccharomyces, Wickerhamomyces and Cryptococcus involved in the cocoa fermentation (Mota-Gutierrez et al, 2018;Delgado-Ospina et al, 2020). The relationship between specific yeast strains and the cocoa fermentation treatment could be explained by the dynamics and interactions between yeasts and bacteria strongly depending on the method (Mota-Gutierez et al, 2018).…”

Section: Cut Test Scoresupporting

confidence: 92%

Pod storage time and spontaneous fermentation treatments and their impact on the generation of cocoa flavour precursor compounds

Koné

Assi-Clair

Kouassi

et al. 2020

Int J of Food Sci Tech

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Most of volatile flavour compounds occurred during the cocoa postharvest operations including pod storage and fermentation whom effects on these metabolites were aimed by the present study. Three different spontaneous fermentation treatments were performed on the farm, and the main isolated yeasts were identified using PCR-DGGE technique. Fermented cocoa beans were solar-dried, and their flavour compounds were identified using solid phase microextraction technique-gas chromatography-mass spectrometry. The main results showed that Pichia kudriavzevii was common yeast involved in the cocoa fermentation. Thirty flavour precursor compounds grouped into six chemical families including alcohols and pyrazines were identified in raw cocoa samples. ACP showed that short durations of pod storage and fermentation promote the formation of flavour precursors of cocoa. No spontaneous cocoa fermentation treatment influenced the occurrence of aroma compounds. The generation of flavour compounds depends only on the pod storage and the fermentative microorganisms of cocoa.

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Section: Cut Test Scoresupporting

confidence: 92%

Pod storage time and spontaneous fermentation treatments and their impact on the generation of cocoa flavour precursor compounds

Koné

Assi-Clair

Kouassi

et al. 2020

Int J of Food Sci Tech

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“…The drying treatments on the fibers are consistent with the low moisture content and water activity found, which can mean a low probability of proliferation of microorganisms that deteriorate the fibers. The pH found in the fibers is slightly acidic, in CS due to traces of organic acids originated during the fermentation and drying process of the beans [ 51 ], and in CPHF due to the ripening process. The effect of the treatments on CPH showed a significant decrease (P < 0.05) in pH ( Table 1 ).…”

Section: Resultsmentioning

confidence: 99%

Bioactive compounds and techno-functional properties of high-fiber co-products of the cacao agro-industrial chain

Delgado‐Ospina

Lucas‐González

Viuda‐Martos

et al. 2021

Heliyon

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The cacao shell (CS) and cacao pod husk (CPH), two of the most promising high-fiber co-products of the cacao agro-industrial chain, were evaluated to determine their potential incorporation into food products. This research determined bioactive compounds and techno-functional properties of CS and CPH, and was evaluated the enzymatic inactivation by thermal treatments in CPH. We found that CS is rich in protein, lipids, dietary fiber (48.1 ± 0.3 g 100 g dw −1 ), and antioxidant molecules such as epicatechin (1.10 ± 0.02 mg g −1 ) and isoquercetin (1.04 ± 0.09 mg g −1 ). Moreover, in CS a positive effect of hydration mechanism occur; in fact, it was observed a reduction of Lightness (L∗) value and a remarkable color difference (ΔE∗,18.8 ± 0.7) (CIEL∗a∗b∗ color space), between hydrated and dry CS samples; so, it could be used as a potential natural colorant in foods. CPH resulted equally rich in dietary fiber (35.3–37.4%) and flavonoids (2.9 ± 0.1 mg RE g −1 ); in this co-product, the rapid enzymatic inactivation by thermal treatments was essential to obtain the highest antioxidant activity and polyphenols content; regarding the techno-functional properties, it was found that CPH flour had high hydration capacity, so CPH can use it as a replacement for emulsifiers or water holding additives while incorporating the fiber and abundantly found antioxidants.

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“…For this, we selected the strains P. kudriavzevii ECA33 and S. cerevisiae 4, which did not show decarboxylase activity of the amino acids tested individually in this study. These strains were characterized previously by their good thermotolerance, as well as a strong pectinolytic and β-glucosidase activity in a synthetic medium [ 18 ] suggesting that they may have an important impact on cocoa production.…”

Section: Resultsmentioning

confidence: 99%

“…Hence, the maximum of lactic and acetic acid production was reached at 24 °C for SCB samples and at 48 h (lactic acid) and 72 h (acetic acid) for PKB samples. On the other hand, P. kudriavzevii ECA33 that is more thermotolerant than S. cerevisiae 4 [ 18 ], promoted a major accumulation of both lactic (19.7 ± 0.9 mg/kg) and acetic acid (71.5 ± 3.6 mg/kg), with respect to SCB and CB samples, at the end of the fermentation period.…”

Section: Resultsmentioning

confidence: 99%

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Exploring the Capability of Yeasts Isolated from Colombian Fermented Cocoa Beans to Form and Degrade Biogenic Amines in a Lab-Scale Model System for Cocoa Fermentation

et al. 2020

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Yeast starters for cocoa fermentation are usually tested according to their enzymatic activities in terms of mucilage degradation and flavor improvement, disregarding their influence on the production or elimination of toxic compounds as biogenic amines (BAs), important for human health. In this work, we tested 145 strains belonging to 12 different yeast species and isolated from the Colombian fermented cocoa beans (CB) for their capability of producing BAs in vitro. Sixty-five strains were able to decarboxylate at least one of the amino acids tested. Pichia kudriavzevii ECA33 (Pk) and Saccharomyces cerevisiae 4 (Sc) were selected to evaluate their potential to modulate BAs, organic acids, and volatile organic compounds (VOCs) accumulation during a simulated cocoa fermentation. The growth of Sc or Pk in the presence of CB caused a significant reduction (p < 0.05) of 2-phenylethylamine (84% and 37%) and cadaverine (58% and 51%), and a significant increase of tryptamine and putrescine with a strong influence of temperature in BA formation and degradation. In addition, our findings pointed out that Pk induced a major production of fatty acid- and amino acid-derived VOCs, while Sc induced more VOCs derived from fatty acids metabolism. Our results suggest the importance of considering BA production in the choice of yeast starters for cocoa fermentation.

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Functional Biodiversity of Yeasts Isolated from Colombian Fermented and Dry Cocoa Beans

Cited by 26 publications

References 60 publications

Pod storage time and spontaneous fermentation treatments and their impact on the generation of cocoa flavour precursor compounds

Pod storage time and spontaneous fermentation treatments and their impact on the generation of cocoa flavour precursor compounds

Bioactive compounds and techno-functional properties of high-fiber co-products of the cacao agro-industrial chain

Exploring the Capability of Yeasts Isolated from Colombian Fermented Cocoa Beans to Form and Degrade Biogenic Amines in a Lab-Scale Model System for Cocoa Fermentation

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