Influence of nitrogen sources on growth and fermentation performance of different wine yeast species during alcoholic fermentation

In this study, the influence of twenty different single (i.e. 19 amino acids and ammonium sulphate) and two multiple nitrogen sources (N-sources) on growth and fermentation (i.e. glucose consumption and ethanol production) performance of Saccharomyces cerevisiae and of four wine-related non-Saccharo...

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Bibliographic Details
Published in:Applied microbiology and biotechnology 2015-12, Vol.99 (23), p.10191-10207
Main Authors: Kemsawasd, Varongsiri, Viana, Tiago, Ardö, Ylva, Arneborg, Nils
Format: Article
Language:English
Subjects:
alanine
alcoholic fermentation
Amino acids
Amino Acids - metabolism
Ammonium
ammonium sulfate
ammonium sulphate
Analysis
Applied Microbial and Cell Physiology
arginine
asparagine
aspartic acid
Biomedical and Life Sciences
Biotechnology
Ethanol
Ethanol - metabolism
ethanol production
Fermentation
Food science
Glucose
glutamine
Hanseniaspora uvarum
Influence
isoleucine
Life Sciences
Metschnikowia pulcherrima
Microbial Genetics and Genomics
Microbiology
Nitrogen
Nitrogen - metabolism
Nitrogen sources
Physiology
Saccharomyces cerevisiae
serine
Studies
Sulfates
Torulaspora delbrueckii
valine
Vitaceae
Wine - microbiology
wine yeasts
Wines
Yeast
Yeasts
Yeasts - growth & development
Yeasts - metabolism
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Summary:In this study, the influence of twenty different single (i.e. 19 amino acids and ammonium sulphate) and two multiple nitrogen sources (N-sources) on growth and fermentation (i.e. glucose consumption and ethanol production) performance of Saccharomyces cerevisiae and of four wine-related non-Saccharomyces yeast species (Lachancea thermotolerans, Metschnikowia pulcherrima, Hanseniaspora uvarum and Torulaspora delbrueckii) was investigated during alcoholic fermentation. Briefly, the N-sources with beneficial effects on all performance parameters (or for the majority of them) for each yeast species were alanine, arginine, asparagine, aspartic acid, glutamine, isoleucine, ammonium sulphate, serine, valine and mixtures of 19 amino acids and of 19 amino acids plus ammonium sulphate (for S. cerevisiae), serine (for L. thermotolerans), alanine (for H. uvarum), alanine and asparagine (for M. pulcherrima), arginine, asparagine, glutamine, isoleucine and mixture of 19 amino acids (for T. delbrueckii). Furthermore, our results showed a clear positive effect of complex mixtures of N-sources on S. cerevisiae and on T. delbrueckii (although to a lesser extent) as to all performance parameters studied, whereas for L. thermotolerans, H. uvarum and M. pulcherrima, single amino acids affected growth and fermentation performance to the same extent as the mixtures. Moreover, we found groups of N-sources with similar effects on the growth and/or fermentation performance of two or more yeast species. Finally, the influences of N-sources observed for T. delbrueckii and H. uvarum resembled those of S. cerevisiae the most and the least, respectively. Overall, this work contributes to an improved understanding of how different N-sources affect growth, glucose consumption and ethanol production of wine-related yeast species under oxygen-limited conditions, which, in turn, may be used to, e.g. optimize growth and fermentation performance of the given yeast upon N-source supplementation during wine fermentations.
ISSN:0175-7598
1432-0614
DOI:10.1007/s00253-015-6835-3