Patulin biodegradation using Pichia ohmeri and Saccharomyces cerevisiae

Coelho, Alexandre Rodrigo; Celli, Marcos Giovani; Ono, Elisabete Yurie Sataque; Hoffmann, Fernando Leite; Pagnocca, Fernando Carlos; García, Sandra; Sabino, Myrna; Harada, Kenichi; Wosiacki, Gilvan; Hirooka, Elisa Yoko

doi:10.3920/wmj2008.1040

Cited by 33 publications

(13 citation statements)

References 26 publications

(35 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In vitro tests indicated that P. caribbica degraded the mycotoxin directly . Several other yeast species including M. pulcherrima , P. ohmeri , R. kratochvilovae , S. cerevisiae , and Sporobolomyces roseus have also been investigated for their patulin‐degrading capabilities . A R. kratochvilovae (a basidiomycote yeast) strain was able to convert patulin to less toxic desoxypatulinic acid (DPA), representing a novel biodegradation pathway and detoxification process .…”

Section: Applications Of Yeastsmentioning

confidence: 99%

Mycotoxins – prevention and decontamination by yeasts

Pfliegler

Pusztahelyi

Pócsi

2015

J. Basic Microbiol.

View full text Add to dashboard Cite

The application of yeasts has great potential in reducing the economic damage caused by toxigenic fungi in the agriculture. Some yeasts may act as biocontrol agents inhibiting the growth of filamentous fungi. These species may also gain importance in the preservation of agricultural products and in the reduction of their mycotoxin contamination, yet the extent of mycotoxin production in the presence of biocontrol agents is relatively less understood. The application of yeasts in various technological processes may have a direct inhibitory effect on the toxin production of certain molds, which is independent of their growth suppressing effect. Furthermore, several yeast species are capable of accumulating mycotoxins from agricultural products, thereby effectively decontaminating them. Probiotic yeasts or products containing yeast cell wall are also applied to counteract mycotoxicosis in livestock. Several yeast strains are also able to degrade toxins to less-toxic or even non-toxic substances. This intensively researched field would greatly benefit from a deeper knowledge on the genetic and molecular basis of toxin degradation. Moreover, yeasts and their biotechnologically important enzymes may exhibit sensitivity to certain mycotoxins, thereby mounting a considerable problem for the biotechnological industry. It is noted that yeasts are generally regarded as safe; however, there are reports of toxin degrading species that may cause human fungal infections. The aspects of yeast-mycotoxin relations with a brief consideration of strain improvement strategies and genetic modification for improved detoxifying properties and/or mycotoxin resistance are reviewed here.

show abstract

Section: Applications Of Yeastsmentioning

confidence: 99%

Mycotoxins – prevention and decontamination by yeasts

Pfliegler

Pusztahelyi

Pócsi

2015

J. Basic Microbiol.

View full text Add to dashboard Cite

show abstract

“…In view of this, many researches have shown that some antagonist yeasts could directly inhibit the production of patulin. Through almost 30 years of research, dozens of yeasts, including Pichia caribbica [21], Rhodotorula glutinis [22], Pichia ohmeri [23], Rhodosporidium kratochvilovae [24], Gluconobacter oxydans [25], and several others have been shown to degrade patulin, and inhibited the growth of P. expansum . Coelho et al [26] reported that patulin concentration of 223 µg was decreased over 83% by P. ohmeri 158 cells when incubated at 25 °C for two days at a humidity >99.…”

Section: Introductionmentioning

confidence: 99%

The Possible Mechanisms Involved in Degradation of Patulin by Pichia caribbica

Zheng¹,

Yang²,

Zhang³

et al. 2016

Toxins

View full text Add to dashboard Cite

In this work, we examined the mechanisms involved in the degradation of patulin by Pichia caribbica. Our results indicate that cell-free filtrate of P. caribbica reduced patutlin content. The heat-killed cells could not degrade patulin. However, the live cells significantly reduced the concentration of the patulin. In furtherance to this, it was observed that patulin was not detected in the broken yeast cells and cell wall. The addition of cycloheximide to the P. caribbica cells decreased the capacity of degradation of patulin. Proteomics analyses revealed that patulin treatment resulted in an upregulated protein which was involved in metabolism and stress response processes. Our results suggested that the mechanism of degradation of patulin by P. caribbica was not absorption; the presence of patulin can induce P. caribbica to produce associated intracellular and extracellular enzymes, both of which have the ability to degrade patulin. The result provides a new possible method that used the enzymes produced by yeast to detoxify patulin in food and feed.

show abstract

“…Besides being successful, this method is much better understood compared with other decontamination methods. Approximately 96% of patulin can be removed during yeast fermentation [242]. Stinson et al [243] examined and found that out of eight yeast strains tested six reduced patulin levels to below detectable levels, while all eight strains resulted in a 99% or better decrease in total patulin content.…”

Section: Biological Controlmentioning

confidence: 99%

Mycotoxin Contamination of Beverages: Occurrence of Patulin in Apple Juice and Ochratoxin A in Coffee, Beer and Wine and Their Control Methods

Reddy

Abbas

Abel

et al. 2010

Toxins

View full text Add to dashboard Cite

Abstract:Mycotoxins are toxic secondary metabolites produced under special conditions of moisture and temperature by aerobic, microscopic fungi that can colonize a variety of foods from before harvest up to consumer use. Contamination of beverages, including that of apple juice by patulin and coffee, beer and wine by ochratoxin A has gained worldwide interest in recent years with the revelation of the effect of these toxins on human health. Patulin and ochratoxin A, which are produced by species of Penicillium, Byssochlamys and Aspergillus, pose the greatest threat to human health and are subject to government regulation in juices and beverages worldwide. This review provides an overview of the prevalence of these mycotoxins in beverages and control methods which help in establishing and carrying out proper management strategies. A detailed investigation on OPEN ACCESSToxins 2010, 2 230 contamination of juices and beverages by toxic compounds helps to provide safe products for consumption and export, and they allow us to prioritize future research efforts.

show abstract

Patulin biodegradation using Pichia ohmeri and Saccharomyces cerevisiae

Cited by 33 publications

References 26 publications

Mycotoxins – prevention and decontamination by yeasts

Mycotoxins – prevention and decontamination by yeasts

The Possible Mechanisms Involved in Degradation of Patulin by Pichia caribbica

Mycotoxin Contamination of Beverages: Occurrence of Patulin in Apple Juice and Ochratoxin A in Coffee, Beer and Wine and Their Control Methods

Contact Info

Product

Resources

About