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Comparative proteome analysis of Brettanomyces bruxellensisunder hydroxycinnamic acid growth
Carmona, Lourdes; Varela, Javier; Godoy, Liliana; Ganga, María Angélica.
Affiliation
  • Carmona, Lourdes; University of Santiago of Chile. Department of Food Science and Technology. Laboratory of Biotechnology and Applied Microbiology. Santiago. CL
  • Varela, Javier; University of Santiago of Chile. Department of Food Science and Technology. Laboratory of Biotechnology and Applied Microbiology. Santiago. CL
  • Godoy, Liliana; University of Santiago of Chile. Department of Food Science and Technology. Laboratory of Biotechnology and Applied Microbiology. Santiago. CL
  • Ganga, María Angélica; University of Santiago of Chile. Department of Food Science and Technology. Laboratory of Biotechnology and Applied Microbiology. Santiago. CL
Electron. j. biotechnol ; Electron. j. biotechnol;19(5): 37-43, Sept. 2016. ilus
Article de En | LILACS | ID: lil-797334
Bibliothèque responsable: CL1.1
ABSTRACT

Background:

Brettanomyces bruxellensis is an important spoilage yeast in the winemaking process. The capacity of this yeast to generate an undesired off-flavor constitutes a significant loss in the Chilean wine industry.

Results:

The proteomic profile of B. bruxellensis in the presence of p-coumaric acid was determined by 2D gel electrophoresis, gel image analysis and differential spot selection. A set of 41 proteins showed a differential accumulation of ±2 and a p-value <0.0001. The homology sequence analysis was performed using the databases available. Differential proteins belonged to the categories of 'energy production and conversion' and 'amino acid transport and metabolism'.

Conclusions:

The proteomic profile of B. bruxellensis cultivated in the presence of p-coumaric acid in synthetic wine, agrees with the hypothesis of metabolic flux regulation, allowing a better conditioning to an adverse environment. This study involved the translational level of B. bruxellensis in the production of ethylphenols and corroborated that this yeast presented an advantage in these stress conditions. Thus, this work will allow an understanding of the regulation and processes involved in the production of ethyl-derivate compounds by B. bruxellensis. Furthermore, it allows the development of newer and better techniques for spoilage yeast control.
Sujet(s)
Mots clés

Texte intégral: 1 Indice: LILACS Sujet Principal: Vin / Acides coumariques / Protéome / Brettanomyces langue: En Texte intégral: Electron. j. biotechnol Thème du journal: BIOTECNOLOGIA Année: 2016 Type: Article

Texte intégral: 1 Indice: LILACS Sujet Principal: Vin / Acides coumariques / Protéome / Brettanomyces langue: En Texte intégral: Electron. j. biotechnol Thème du journal: BIOTECNOLOGIA Année: 2016 Type: Article