Identification by PCR and evaluation of probiotic potential in yeast strains found in kefir samples in the city of Santa Maria, RS, Brazil

Cassanego, Daniela Buzatti; Richards, Neila Silvia Pereira dos Santos; Valente, Patrícia; Mazutti, Márcio A.

doi:10.1590/1678-457x.13617

Cited by 14 publications

(15 citation statements)

References 37 publications

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“…These results are consistent with a previous research [16] where the most common yeast species that can be found in the microbial mixture in the kefir is Saccharomyces cerevisiae. Another study done from Brazil reported that Saccharomyces, Candida and Kluyveromices are the abundance genera that can be found in the kefir drink in the region [17].…”

Section: Gene Sequencing and Identificationsupporting

confidence: 93%

Isolation and Molecular Identification of Potential Probiotic Yeast Strains Found in Malaysian Kefir Drinks Samples

Azhar¹,

Sakinah²

2019

IJPMBS

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Kefir drink is a product from the fermentation process of milk using symbiotic mixture of bacteria and yeast consortium. Saccharomyces and lactobacillus are the major genera found in the kefir drink. The present work involves the isolation and identification of potential probiotic yeast strains in the kefir drink samples from Malaysia. The molecular identification was done by PCR using ITS1 and ITS4 amplified regions. Nine different yeast strains were isolated, and the strains were successfully identified based on the sequence analysis. Saccharomyces and Kodamaea were found to be the major population in the kefir drink samples. Lastly, kefir milk is one of the excellent sources of probiotic yeast strains and could be used as a new yeast probiotic formulation or in food supplements. Moreover, the amplification of ITS region can be used as a useful method to identified yeast strains.

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Section: Gene Sequencing and Identificationsupporting

confidence: 93%

Isolation and Molecular Identification of Potential Probiotic Yeast Strains Found in Malaysian Kefir Drinks Samples

Azhar¹,

Sakinah²

2019

IJPMBS

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“…de found that S. cerevisiae strains isolated from Brazilian kefir presented interesting in vitro probiotic properties. However, Cassanego et al (2017) observed that S. cerevisiae, Hanseniospora uvarum and K. unispora isolated from other Brazilian kefir were not able to tolerate the passage through the simulated gastrointestinal tract. Xie et al (2012) studied the positive effect of the kefir yeasts on Lactobacillus probiotic potentials and Cho et al (2018) recently found that a combination of kefir-derived Kluyveromyces KU140723-02 and polyphenol-rich grape seed flour or its extract has an incremented antioxidant activity.…”

Section: Health Promoting Properties Of Kefir Micro-organismsmentioning

confidence: 94%

“…However, Cassanego et al . () observed that S. cerevisiae, Hanseniospora uvarum and K. unispora isolated from other Brazilian kefir were not able to tolerate the passage through the simulated gastrointestinal tract. Xie et al .…”

Section: Health Promoting Properties Of Kefir Micro‐organismsmentioning

confidence: 99%

Kefir micro-organisms: their role in grain assembly and health properties of fermented milk

Iraporda²,

et al. 2018

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Kefir is a homemade viscous and slightly effervescent beverage obtained by milk fermentation with kefir grains, which are built up by a complex community of lactic acid and acetic acid bacteria and yeasts confined in a matrix of proteins and polysaccharides. The present review summarizes the role of kefir micro-organisms in grain assembly and in the beneficial properties attributed to kefir. The use of both culture-dependent and independent methods has made possible to determine the micro-organisms that constitute this ecosystem. Kefir consumption has been associated with a wide range of functional and probiotic properties that could be attributed to the micro-organisms present in kefir and/or to the metabolites synthetized by them during milk fermentation. In this context, the role of micro-organisms in kefir health promoting properties is discussed with particular attention to the contribution of yeast as well as bioactive metabolites such as lactic and acetic acid, exopolysaccharides and bioactive peptides. Even though many advances on the knowledge of this ancient fermented milk have been made, further studies are necessary to elucidate the complex nature of the kefir ecosystem.

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“…Several microorganisms demonstrate their probiotic potential through pathogens inhibition, however they still need to overcome barriers during passage through GI tract, which involves gastric juice, digestive enzymes, organic acids, bile salts and considerable variations in temperature and pH, such as acidic pH of gastric juice and alkaline pH existing in the intestine 2017) demonstrated GD solution is not usually aggressive to yeasts, as also observed in our study; nevertheless, isolates showed to be sensitive to pancreatic conditions, with a decrease of living cells between 1 log 10 -2 log 10 . In the studies of Cassanego et al (2017), isolates classi ed as S. cerevisiae and H. uvarum were not able to survive after exposure to this condition, however we presented in our work that yeast isolates were able to resist to PD solution. Cell viability analysis during in vitro GI tract simulation proves to be important because it is believed that effects related to probiotics are dose-dependent, it being suggested as effective a dosage between 10 7 -10 9 CFU/mg per day (Minelli and Benini, 2008).…”

Section: Discussionmentioning

confidence: 60%

Brewing and Probiotic Potential Activity of Wild Yeasts Hanseniaspora Uvarum PIT001, Pichia Kluyveri LAR001 and Candida Intermedia ORQ001

Piraine

Retzlaf

Gonçalves

et al. 2021

Preprint

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Non-conventional yeasts can be isolated from a wide range of environmental sources, often found in beverage industry in mixed fermentations, in which the microorganisms’ inoculum usually is not fully known. It is important to know starter cultures, since in addition to favoring reproducibility, other properties can be discovered. Thus, the objective of this work was to identify and characterize yeasts isolated from environment, evaluating their probiotic potential and possible use in brewery. Isolates were obtained from flowers, fruits, leaves and mixed-fermentation beers, being identified by PCR. Yeasts with promising activity were evaluated regarding their growth under different pHs, temperature and presence of organic acids. To explore probiotic potential, in vitro tests were performed of antimicrobial activity and co-aggregation with food pathogens, auto-aggregation, and survival in simulated gastrointestinal tract conditions. In our study, Pichia kluyveri (LAR001), Hanseniaspora uvarum (PIT001) and Candida intermedia (ORQ001) were selected among 20 isolates. P. kluyveri was the only one that tolerated pH 2.5. Lactic acid was not inhibitory, while acetic acid and incubation at 37 °C had a partially inhibitory effect on yeasts growth. All yeasts tolerated α-acids from hops and NaCl up to 1%. It is suggested that isolates are able to adhere to intestinal cells and influence positively the organism in combating pathogens, as they showed auto-aggregation rates above 99% and antagonistic activity to pathogenic bacteria. The yeasts tolerated gastric environment conditions, however were more sensitive to pancreatic conditions. We conclude that isolated non-conventional yeasts showed probiotic potential and promising application in beer fermentation.

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Identification by PCR and evaluation of probiotic potential in yeast strains found in kefir samples in the city of Santa Maria, RS, Brazil

Cited by 14 publications

References 37 publications

Isolation and Molecular Identification of Potential Probiotic Yeast Strains Found in Malaysian Kefir Drinks Samples

Isolation and Molecular Identification of Potential Probiotic Yeast Strains Found in Malaysian Kefir Drinks Samples

Kefir micro-organisms: their role in grain assembly and health properties of fermented milk

Brewing and Probiotic Potential Activity of Wild Yeasts Hanseniaspora Uvarum PIT001, Pichia Kluyveri LAR001 and Candida Intermedia ORQ001

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