Your search keyword '"wine yeasts"' showing total 309 results

1. Application of FTIR Microspectroscopy in Oenology: Shedding Light on Cell Wall Composition of Saccharomyces cerevisiae Strains.

Author

L. Binati, Renato, Ferremi Leali, Nicola, Avesani, Michele, Salvetti, Elisa, Felis, Giovanna E., Monti, Francesca, and Torriani, Sandra

Subjects

*SACCHAROMYCES cerevisiae, *SCANNING transmission electron microscopy, *WINES, *BETA-glucans

Abstract

The evaluation of cell parietal components of yeasts is an important criterium for the selection of wine starters since they play a key role in the vinification process. The aim of this study was to characterize and compare the cell wall composition of four industrial (BM45, D47, EC1118, K1) and three native Saccharomyces cerevisiae (MY8, MY11, PEDRO2000E) wine strains by means of scanning and transmission electron microscopy and ATR-FTIR microspectroscopy. A statistically significant variability in the cell wall thickness and cell diameter was observed among the yeast cells, with native strains showing higher cell diameter values. FTIR microspectroscopy applied on the intact cells without any previous invasive treatment and on the separated cell walls highlighted profound differences among the strains in terms of the overall content of parietal polysaccharides as related to the thickness of the cell walls and in terms of the relative concentration of β-glucans and mannans in the cell walls. The strains EC1118, MY11, and PEDRO2000E showed a higher overall content of β-glucans and mannans, whose lower relative concentration in PEDRO2000E was compensated by a thicker cell wall; BM45 and D47 were characterized by a high relative concentration of polysaccharides in a thinner wall, while K1 and MY8 displayed a low relative concentration of polysaccharides. ATR-FTIR microspectroscopy allows identifying polysaccharide-rich yeast strains and can become a smart option for the selection of starter cultures to be used in oenology and for other applications in food industry, thanks to the interesting technological properties of parietal polysaccharides. [ABSTRACT FROM AUTHOR]

Published

2024

2. A Predictive Assessment of Ochratoxin A's Effects on Oxidative Stress Parameters and the Fermentation Ability of Yeasts Using Neural Networks.

Author

Jakopović, Željko, Valinger, Davor, Hanousek Čiča, Karla, Mrvčić, Jasna, Domijan, Ana-Marija, Čanak, Iva, Kostelac, Deni, Frece, Jadranka, and Markov, Ksenija

Subjects

OXIDATIVE stress, ETHANOL, MALONDIALDEHYDE, FERMENTATION, YEAST, ARTIFICIAL neural networks

Abstract

The aim of this paper was to examine the effect of different OTA concentrations on the parameters of oxidative stress (glutathione (GSH) and malondialdehyde (MDA) concentrations) and glucose utilization in ethanol production by wine yeasts. In addition to the above, artificial neural networks (ANN) were used to predict the effects of different OTA concentrations on the fermentation ability of yeasts and oxidative stress parameters. The obtained results indicate a negative influence of OTA (4 µg mL−1) on ethanol production after 12 h. For example, K. marxianus produced 1.320 mg mL−1 of ethanol, while in the control sample 1.603 µg mL−1 of ethanol was detected. However, after 24 h, OTA had no negative effect on ethanol production, since it was higher (7.490 and 3.845 mg mL−1) in comparison to control samples. Even low concentrations of OTA affect GSH concentrations, with the highest being detected after 12 and 24 h (up to 16.54 µM), while MDA concentrations are affected by higher OTA concentrations, with the highest being detected at 24 h (1.19 µM). The obtained results with the use of ANNs showed their potential for quantification purposes based on experimental data, while the results of ANN prediction models have shown to be useful for predictions of what outcomes different concentrations of OTA that were not part of experiment will have on the fermentation capacity and oxidative stress parameters of yeasts. [ABSTRACT FROM AUTHOR]

Published

2024

3. Predictability of the community‐function landscape in wine yeast ecosystems.

Author

Ruiz, Javier, de Celis, Miguel, Diaz‐Colunga, Juan, Vila, Jean CC, Benitez‐Dominguez, Belen, Vicente, Javier, Santos, Antonio, Sanchez, Alvaro, and Belda, Ignacio

Subjects

*MICROBIAL ecology, *WINES, *FERMENTATION, *YEAST, *LANDSCAPES, *ECOSYSTEMS

Abstract

Predictively linking taxonomic composition and quantitative ecosystem functions is a major aspiration in microbial ecology, which must be resolved if we wish to engineer microbial consortia. Here, we have addressed this open question for an ecological function of major biotechnological relevance: alcoholic fermentation in wine yeast communities. By exhaustively phenotyping an extensive collection of naturally occurring wine yeast strains, we find that most ecologically and industrially relevant traits exhibit phylogenetic signal, allowing functional traits in wine yeast communities to be predicted from taxonomy. Furthermore, we demonstrate that the quantitative contributions of individual wine yeast strains to the function of complex communities followed simple quantitative rules. These regularities can be integrated to quantitatively predict the function of newly assembled consortia. Besides addressing theoretical questions in functional ecology, our results and methodologies can provide a blueprint for rationally managing microbial processes of biotechnological relevance. Synopsis: Exploring the connection between taxonomic composition and ecological function is a primary objective in engineering microbial consortia. Here, this link is investigated within the context of a highly relevant biotechnological process: wine fermentation. In‐depth phenotyping of a collection of wine yeast isolates indicates that most of the analysed traits exhibit a phylogenetic signal, enabling the prediction of functional traits based on phylogeny.The contributions of individual wine yeasts to the function of wine fermentation in various community contexts follow simple quantitative rules.Understanding individual species behaviours in different ecological contexts enables us to anticipate the function of any randomly assembled complex community. [ABSTRACT FROM AUTHOR]

Published

2023

4. Predictability of the community‐function landscape in wine yeast ecosystems

Author

Javier Ruiz, Miguel deCelis, Juan Diaz‐Colunga, Jean CC Vila, Belen Benitez‐Dominguez, Javier Vicente, Antonio Santos, Alvaro Sanchez, and Ignacio Belda

Subjects

community‐function landscape, functional effect equations, microbial interactions, phylogenetic signal, wine yeasts, Biology (General), QH301-705.5, Medicine (General), R5-920

Abstract

Abstract Predictively linking taxonomic composition and quantitative ecosystem functions is a major aspiration in microbial ecology, which must be resolved if we wish to engineer microbial consortia. Here, we have addressed this open question for an ecological function of major biotechnological relevance: alcoholic fermentation in wine yeast communities. By exhaustively phenotyping an extensive collection of naturally occurring wine yeast strains, we find that most ecologically and industrially relevant traits exhibit phylogenetic signal, allowing functional traits in wine yeast communities to be predicted from taxonomy. Furthermore, we demonstrate that the quantitative contributions of individual wine yeast strains to the function of complex communities followed simple quantitative rules. These regularities can be integrated to quantitatively predict the function of newly assembled consortia. Besides addressing theoretical questions in functional ecology, our results and methodologies can provide a blueprint for rationally managing microbial processes of biotechnological relevance.

Published

2023

5. Biocontrol Using Torulaspora delbrueckii in Sequential Fermentation: New Insights into Low-Sulfite Verdicchio Wines.

Author

Canonico, Laura, Agarbati, Alice, Galli, Edoardo, Comitini, Francesca, and Ciani, Maurizio

Subjects

FERMENTATION, PHENYLACETATES, TROPICAL fruit, WINES, SACCHAROMYCES cerevisiae, FOOD aroma, SAUVIGNON blanc, ORANGES, ETHYL acetate

Abstract

Torulaspora delbrueckii has attracted renewed interest in recent years, for its biotechnological potential linked to its ability to enhance the flavor and aroma complexity of wine. Sequential fermentations with a selected native strain of T. delbrueckii (DiSVA 130) and low-sulfite native strain of Saccharomyces cerevisiae (DiSVA 709) were carried out to establish their contribution in biocontrol and the aroma profile. A first set of trials were conducted to evaluate the effect of the sulfur dioxide addition on pure and T. debrueckii/S. cerevisiae sequential fermentations. A second set of sequential fermentations without SO2 addition were conducted to evaluate the biocontrol and aromatic effectiveness of T. delbrueckii. Native T. delbrueckii showed a biocontrol action in the first two days of fermentation (wild yeasts reduced by c.a. 1 log at the second day). Finally, trials with the combination of both native and commercial T. delbrueckii/S. cerevisiae led to distinctive aromatic profiles of wines, with a significant enhancement in isoamyl acetate, phenyl ethyl acetate, supported by positive appreciations from the tasters, for ripe and tropical fruits, citrus, and balance. The whole results indicate that native T. delbrueckii could be a potential biocontrol tool against wild yeasts in the first phase of fermentation, contributing to improving the final wine aroma. [ABSTRACT FROM AUTHOR]

Published

2023

6. Single nucleotide polymorphisms associated with wine fermentation and adaptation to nitrogen limitation in wild and domesticated yeast strains.

Author

Kessi-Pérez, Eduardo I., Acuña, Eric, Bastías, Camila, Fundora, Leyanis, Villalobos-Cid, Manuel, Romero, Andrés, Khaiwal, Sakshi, De Chiara, Matteo, Liti, Gianni, Salinas, Francisco, and Martínez, Claudio

Subjects

SINGLE nucleotide polymorphisms, MOLECULAR biology, FERMENTATION, YEAST, WINES, GRAPES, VINEYARDS

Abstract

For more than 20 years, Saccharomyces cerevisiae has served as a model organism for genetic studies and molecular biology, as well as a platform for biotechnology (e.g., wine production). One of the important ecological niches of this yeast that has been extensively studied is wine fermentation, a complex microbiological process in which S. cerevisiae faces various stresses such as limited availability of nitrogen. Nitrogen deficiencies in grape juice impair fermentation rate and yeast biomass production, leading to sluggish or stuck fermentations, resulting in considerable economic losses for the wine industry. In the present work, we took advantage of the "1002 Yeast Genomes Project" population, the most complete catalogue of the genetic variation in the species and a powerful resource for genotype-phenotype correlations, to study the adaptation to nitrogen limitation in wild and domesticated yeast strains in the context of wine fermentation. We found that wild and domesticated yeast strains have different adaptations to nitrogen limitation, corroborating their different evolutionary trajectories. Using a combination of state-of-the-art bioinformatic (GWAS) and molecular biology (CRISPR-Cas9) methodologies, we validated that PNP1, RRT5 and PDR12 are implicated in wine fermentation, where RRT5 and PDR12 are also involved in yeast adaptation to nitrogen limitation. In addition, we validated SNPs in these genes leading to differences in fermentative capacities and adaptation to nitrogen limitation. Altogether, the mapped genetic variants have potential applications for the genetic improvement of industrial yeast strains. [ABSTRACT FROM AUTHOR]

Published

2023

7. 育種技術在酒用酵母中的應用研究進展.

Author

鄭貽丹 and 袁先鈴

Abstract

Copyright of China Brewing is the property of China Brewing Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

8. Biocontrol potential of wine yeasts against four grape phytopathogenic fungi disclosed by time-course monitoring of inhibitory activities.

Author

Esteves, Marcos, Lage, Patrícia, Sousa, João, Centeno, Filipe, de Fátima Teixeira, Maria, Tenreiro, Rogério, and Mendes-Ferreira, Ana

Subjects

PHYTOPATHOGENIC fungi, YEAST, WINE districts, MUCOR, WINES, GRAPES

Abstract

Grapes' infection by phytopathogenic fungi may often lead to rot and impair the quality and safety of the final product. Due to the concerns associated with the extensive use of chemicals to control these fungi, including their toxicity for environment and human health, bio-based products are being highly preferred, as eco-friendlier and safer alternatives. Specifically, yeasts have shown to possess antagonistic activity against fungi, being promising for the formulation of new biocontrol products.In this work 397 wine yeasts, isolated from Portuguese wine regions, were studied for their biocontrol potential against common grapes phytopathogenic fungal genera: Aspergillus, Botrytis, Mucor and Penicillium. This set comprised strains affiliated to 32 species distributed among 20 genera. Time-course monitoring of mold growth was performed to assess the inhibitory activity resulting from either diffusible or volatile compounds produced by each yeast strain. All yeasts displayed antagonistic activity against at least one of the mold targets. Mucor was the most affected being strongly inhibited by 68% of the tested strains, followed by Botrytis (20%), Aspergillus (19%) and Penicillium (7%). More notably, the approach used allowed the detection of a wide array of yeast-induced mold response profiles encompassing, besides the decrease of mold growth, the inhibition or delay of spore germination and the complete arrest of mycelial extension, and even its stimulation at different phases. Each factor considered (taxonomic affiliation, mode of action and fungal target) as well as their interactions significantly affected the antagonistic activity of the yeast isolates. The highest inhibitions were mediated by volatile compounds. Total inhibition of Penicillium was achieved by a strain of Metschnikowia pulcherrima, while the best performing yeasts against Mucor, Aspergillus and Botrytis, belong to Lachancea thermotolerans, Hanseniaspora uvarum and Starmerella bacillaris, respectively. Notwithstanding the wide diversity of yeasts tested, only three strains were found to possess a broad spectrum of antagonistic activity, displaying strong or very strong inhibition against the four fungal targets tested. Our results confirm the potential of wine yeasts as biocontrol agents, while highlighting the need for the establishment of fit-for-purpose selection programs depending on the mold target, the timing, and the mode of application. [ABSTRACT FROM AUTHOR]

Published

2023

9. A Predictive Assessment of Ochratoxin A’s Effects on Oxidative Stress Parameters and the Fermentation Ability of Yeasts Using Neural Networks

Author

Željko Jakopović, Davor Valinger, Karla Hanousek Čiča, Jasna Mrvčić, Ana-Marija Domijan, Iva Čanak, Deni Kostelac, Jadranka Frece, and Ksenija Markov

Subjects

artificial neural networks, fermentation ability, oxidative stress, ochratoxin A, wine yeasts, Chemical technology, TP1-1185

Abstract

The aim of this paper was to examine the effect of different OTA concentrations on the parameters of oxidative stress (glutathione (GSH) and malondialdehyde (MDA) concentrations) and glucose utilization in ethanol production by wine yeasts. In addition to the above, artificial neural networks (ANN) were used to predict the effects of different OTA concentrations on the fermentation ability of yeasts and oxidative stress parameters. The obtained results indicate a negative influence of OTA (4 µg mL−1) on ethanol production after 12 h. For example, K. marxianus produced 1.320 mg mL−1 of ethanol, while in the control sample 1.603 µg mL−1 of ethanol was detected. However, after 24 h, OTA had no negative effect on ethanol production, since it was higher (7.490 and 3.845 mg mL−1) in comparison to control samples. Even low concentrations of OTA affect GSH concentrations, with the highest being detected after 12 and 24 h (up to 16.54 µM), while MDA concentrations are affected by higher OTA concentrations, with the highest being detected at 24 h (1.19 µM). The obtained results with the use of ANNs showed their potential for quantification purposes based on experimental data, while the results of ANN prediction models have shown to be useful for predictions of what outcomes different concentrations of OTA that were not part of experiment will have on the fermentation capacity and oxidative stress parameters of yeasts.

Published

2024

10. Biocontrol potential of wine yeasts against four grape phytopathogenic fungi disclosed by time-course monitoring of inhibitory activities

Author

Marcos Esteves, Patrícia Lage, João Sousa, Filipe Centeno, Maria de Fátima Teixeira, Rogério Tenreiro, and Ana Mendes-Ferreira

Subjects

biocontrol, wine yeasts, phytopathogenic fungi, antagonism, Aspergillus niger, Botrytis cinerea, Microbiology, QR1-502

Abstract

Grapes’ infection by phytopathogenic fungi may often lead to rot and impair the quality and safety of the final product. Due to the concerns associated with the extensive use of chemicals to control these fungi, including their toxicity for environment and human health, bio-based products are being highly preferred, as eco-friendlier and safer alternatives. Specifically, yeasts have shown to possess antagonistic activity against fungi, being promising for the formulation of new biocontrol products.In this work 397 wine yeasts, isolated from Portuguese wine regions, were studied for their biocontrol potential against common grapes phytopathogenic fungal genera: Aspergillus, Botrytis, Mucor and Penicillium. This set comprised strains affiliated to 32 species distributed among 20 genera. Time-course monitoring of mold growth was performed to assess the inhibitory activity resulting from either diffusible or volatile compounds produced by each yeast strain. All yeasts displayed antagonistic activity against at least one of the mold targets. Mucor was the most affected being strongly inhibited by 68% of the tested strains, followed by Botrytis (20%), Aspergillus (19%) and Penicillium (7%). More notably, the approach used allowed the detection of a wide array of yeast-induced mold response profiles encompassing, besides the decrease of mold growth, the inhibition or delay of spore germination and the complete arrest of mycelial extension, and even its stimulation at different phases. Each factor considered (taxonomic affiliation, mode of action and fungal target) as well as their interactions significantly affected the antagonistic activity of the yeast isolates. The highest inhibitions were mediated by volatile compounds. Total inhibition of Penicillium was achieved by a strain of Metschnikowia pulcherrima, while the best performing yeasts against Mucor, Aspergillus and Botrytis, belong to Lachancea thermotolerans, Hanseniaspora uvarum and Starmerella bacillaris, respectively. Notwithstanding the wide diversity of yeasts tested, only three strains were found to possess a broad spectrum of antagonistic activity, displaying strong or very strong inhibition against the four fungal targets tested. Our results confirm the potential of wine yeasts as biocontrol agents, while highlighting the need for the establishment of fit-for-purpose selection programs depending on the mold target, the timing, and the mode of application.

Published

2023

11. Insights into the transcriptional regulation of poorly characterized alcohol acetyltransferase-encoding genes (HgAATs) shed light into the production of acetate esters in the wine yeast Hanseniaspora guilliermondii.

Author

Seixas, Isabel, Santos, Diogo, Vasconcelos, Isabel, Mira, Nuno P, and Mendes-Ferreira, Ana

Subjects

*GENETIC transcription regulation, *ESTERS, *ACETATES, *WINES, *YEAST, *AMINO acids, *ALCOHOL

Abstract

Hanseniaspora guilliermondii is a well-recognized producer of acetate esters associated with fruity and floral aromas. The molecular mechanisms underneath this production or the environmental factors modulating it remain unknown. Herein, we found that, unlike Saccharomyces cerevisiae, H. guilliermondii over-produces acetate esters and higher alcohols at low carbon-to-assimilable nitrogen (C:N) ratios, with the highest titers being obtained in the amino acid-enriched medium YPD. The evidences gathered support a model in which the strict preference of H. guilliermondii for amino acids as nitrogen sources results in a channeling of keto-acids obtained after transamination to higher alcohols and acetate esters. This higher production was accompanied by higher expression of the four HgAATs, genes, recently proposed to encode alcohol acetyl transferases. In silico analyses of these HgAat's reveal that they harbor conserved AATs motifs, albeit radical substitutions were identified that might result in different kinetic properties. Close homologues of HgAat2, HgAat3, and HgAat4 were only found in members of Hanseniaspora genus and phylogenetic reconstruction shows that these constitute a distinct family of Aat's. These results advance the exploration of H. guilliermondii as a bio-flavoring agent providing important insights to guide future strategies for strain engineering and media manipulation that can enhance production of aromatic volatiles. Acetate esters production by the wine yeastHanseniaspora guilliermondi. [ABSTRACT FROM AUTHOR]

Published

2023

12. EFFECT OF MIXED CULTURE WITH TORULASPORA DELBRUECKII AND SACCHAROMYCES CEREVISIAE ON PHYSICO-CHEMICAL AND SENSORY CHARACTERISTICS OF YOUNG WINES.

Author

ION, Marian, MATEI, Florentina, BARBU, Steliana-Paula, and BRȊNDUŞE, Elena

Subjects

SACCHAROMYCES cerevisiae, WINES, FERMENTATION, BETA-glucosidase, YEAST

Abstract

The present study aimed to evaluate the effect of pure and mixed culture fermentations with autochtonous yeast strains Torulaspora delbrueckii and Saccharomyces cerevisiae on physico-chemical and sensory qualities of Fetească albă and Fetească neagră young wines, at pilot scale. Yeast strains were isolated during different stages of spontaneous alcoholic fermentation and selected for their potential role in winemaking: 26 strains, 17 Saccharomyces cerevisiae strains and 9 non-Saccharomyces strains, from genera Candida, Torulaspora and Debaryomyces, were evaluated in terms of extracellular enzymatic activity, fermentative and technological characteristics. From these, two Saccharomyces cerevisiae strains were selected for esterase activity, and two non-Saccharomyces strains, Torulaspora delbrueckii species were selected for ß-glucosidase and esterase activity. Different yeast strains influenced the physicochemical characteristics of the wines. The sensory qualities of the young wines produced with mixed cultures were positively influenced. [ABSTRACT FROM AUTHOR]

Published

2023

13. Selection of Saccharomyces bayanus Strains with High Pectinolytic Activity and Phylogenetic Analysis of PGU Genes.

Author

Borovkova, A. N., Shalamitskii, M. Yu., and Naumova, E. S.

Subjects

*SACCHAROMYCES, *GENES, *PECTIC enzymes, *YEAST, *GENOTYPES, *SPECIES

Abstract

For the first time, a large-scale screening has been carried out of pectinolytic activity in Saccharomyces bayanus strains isolated in various regions of the world from fermentation processes and natural sources. The ability to secrete active endo-polygalacturonase was shown to be a feature of this species. Regardless of the source and place of isolation, S. bayanus var. uvarum, S. bayanus var. bayanus and S. eubayanus have the PGU1bPGU2bPGU3b genotype. According to phylogenetic analysis, the pectinase genes (PGU) of the hybrid brewer's yeast S. pastorianus are originated from the cryophilic S. bayanus yeast and not from S. cerevisiae. Five selected S. bayanus strains with the highest pectinolytic activity are promising for further molecular genetic studies and breeding of wine yeasts. [ABSTRACT FROM AUTHOR]

Published

2022

14. Saccharomyces and Their Potential Applications in Food and Food Processing Industries

Author

Leo, Vincent Vineeth, Viswanath, Vinod, Deka, Purbajyoti, Zothanpuia, Ramji, Dwivedi Rohini, Pachuau, Lallawmsangi, Carrie, William, Malvi, Yogesh, Singh, Garima, Singh, Bhim Pratap, Gupta, Vijai Kumar, Series Editor, Tuohy, Maria G., Series Editor, Abdel-Azeem, Ahmed M., editor, Yadav, Ajar Nath, editor, Yadav, Neelam, editor, and Usmani, Zeba, editor

Published

2021

15. Screening of Saccharomyces and Non- Saccharomyces Wine Yeasts for Their Decarboxylase Activity of Amino Acids.

Author

Siesto, Gabriella, Corbo, Maria Rosaria, Pietrafesa, Rocchina, Sinigaglia, Milena, Romano, Patrizia, and Bevilacqua, Antonio

Subjects

AMINO acids, YEAST, SACCHAROMYCES, WINES, SACCHAROMYCES cerevisiae

Abstract

The type and quantity of precursor amino acids present in grape must that are used by wine yeasts affect the organoleptic and health properties of wine. The aim of this work was to conduct a preliminary screening among Saccharomyces and non-Saccharomyces indigenous strains, which were previously isolated from different Italian regional grape varieties. This was performed in order to evaluate their decarboxylase activity on certain important amino acids—such as arginine, proline, serine, and tyrosine—that are present in grape must. In particular, a qualitative test on 122 wine yeasts was performed on a decarboxylase medium using arginine, proline, serine, and tyrosine as precursor amino acids. Our results showed a considerable variability among the microbial species tested for this parameter. Indeed, Saccharomyces cerevisiae strains exhibited a high decarboxylase capability of the four amino acids tested; moreover, only 10% of the total (i.e., a total of 81) did not show this trait. A high recovery of decarboxylation ability for at least one amino acid was also found for Zygosaccharomyces bailii and Hanseniaspora spp. These findings can, therefore, promote the inclusion of decarboxylase activity as an additional characteristic in a wine yeast selection program in order to choose starter cultures that possess desirable technological traits; moreover, this also can contribute to the safeguarding of consumer health. [ABSTRACT FROM AUTHOR]

Published

2022

16. Microbial interactions in winemaking: Ecological aspects and effect on wine quality.

Author

Englezos, Vasileios, Jolly, Neil P., Di Gianvito, Paola, Rantsiou, Kalliopi, and Cocolin, Luca

Subjects

*LACTIC acid bacteria, *WINES, *MICROORGANISM populations, *POPULATION dynamics

Abstract

Wine microbiota is a dense and diverse ecosystem that is directly involved in the production and synthesis of many metabolites of oenological interest thereby directly affecting wine composition. The biodiversity and successional evolution of yeast and lactic acid bacteria (LAB) species and strains within species during alcoholic (AF) and malolactic fermentation (MLF) is greatly influenced by the complexity of the wine environment. Consequently, the successful prediction of wine characteristics is limited. The use of starter cultures has allowed better control of the fermentation process and the production of wines with desired characteristics. Mixed culture fermentations with selected non- Saccharomyces and Saccharomyces yeasts has regained attention in recent years due to their potential to modulate a wide range of metabolites of oenological interest. In this context, interactions among yeast species and LAB throughout the AF and MLF are known to influence the main enological parameters and aromatic profile of the wines. Studies have been conducted to uncover the nature of these interactions, with the aim to better control the AF and MLF. This review provides an overview of microorganism interactions during the different steps of the winemaking process. This gives wine producers the ability to control and fine-tune microorganism population dynamics and therefore the fermentation process and finally wine quality. [Display omitted] • Wine microbiota are directly involved in the synthesis of many metabolites of oenological interest. • Mixed fermentations with non- Saccharomyces and Saccharomyces yeasts benefits wine quality. • Interactions among microorganisms influence the wine profile but limited knowledge of these interactions are available. • Understanding how yeasts and lactic acid bacteria interact enables better control of wine fermentation. [ABSTRACT FROM AUTHOR]

Published

2022

17. Biocontrol Using Torulaspora delbrueckii in Sequential Fermentation: New Insights into Low-Sulfite Verdicchio Wines

Author

Laura Canonico, Alice Agarbati, Edoardo Galli, Francesca Comitini, and Maurizio Ciani

Subjects

wine yeasts, Torulaspora delbrueckii, SO2 reduction, bioprotection, Chemical technology, TP1-1185

Abstract

Torulaspora delbrueckii has attracted renewed interest in recent years, for its biotechnological potential linked to its ability to enhance the flavor and aroma complexity of wine. Sequential fermentations with a selected native strain of T. delbrueckii (DiSVA 130) and low-sulfite native strain of Saccharomyces cerevisiae (DiSVA 709) were carried out to establish their contribution in biocontrol and the aroma profile. A first set of trials were conducted to evaluate the effect of the sulfur dioxide addition on pure and T. debrueckii/S. cerevisiae sequential fermentations. A second set of sequential fermentations without SO2 addition were conducted to evaluate the biocontrol and aromatic effectiveness of T. delbrueckii. Native T. delbrueckii showed a biocontrol action in the first two days of fermentation (wild yeasts reduced by c.a. 1 log at the second day). Finally, trials with the combination of both native and commercial T. delbrueckii/S. cerevisiae led to distinctive aromatic profiles of wines, with a significant enhancement in isoamyl acetate, phenyl ethyl acetate, supported by positive appreciations from the tasters, for ripe and tropical fruits, citrus, and balance. The whole results indicate that native T. delbrueckii could be a potential biocontrol tool against wild yeasts in the first phase of fermentation, contributing to improving the final wine aroma.

Published

2023

18. Biodiversity and Oenological Property Analysis of Non -Saccharomyces Yeasts Isolated from Korla Fragrant Pears (Pyrus sinkiangensis Yu).

Author

Li, Yinfeng, Huang, Yuanmin, Long, Hua, Yu, Zhihai, Huang, Mingzheng, and Liu, Xiaozhu

Subjects

YEAST, FRUIT wines, SACCHAROMYCES, BIODIVERSITY, NUCLEOTIDE sequencing, HYDROGEN sulfide

Abstract

Oenological yeasts play a critical role in the winemaking process. In this study, the biodiversity of the non-Saccharomyces yeast was analyzed and monitored using high-throughput sequencing and culture-dependent approaches. Oenological and fermentation characteristics of these native yeasts were further investigated. A total of 241 fungus species and 5 species of culturable non-Saccharomyces yeasts were detected using high-throughput sequencing and culture-dependent approaches, respectively. Five strains of aroma-producing yeasts (K4, K14, K19, K21, and K26) were isolated, and their growth characteristics, carbon source utilization, hydrogen sulfide production performance, and β-glucosidase activity were different. The oenological condition tolerances of most strains were lower than that of commercial S. cerevisiae X16. The co-inoculum of these strains and S. cerevisiae X16 regulated the volatile aroma characteristics of the fermented Korla fragrant pear (KFP) fruit wine, enriching and complicating the aroma flavor. Thus, the combined inoculation of these indigenous wine yeasts and S. cerevisiae has some application potential in the production of KFP wine. [ABSTRACT FROM AUTHOR]

Published

2022

19. Capitalization of secondary wine products - an opportunity for the wine sector of Republic of Moldova and Romania

Author

MUSTEAȚĂ, Grigore, BĂLĂNUȚĂ, Anatol, REȘTICA, Vladislav, FILIMON, Razvan Vasile, BĂETU, Marius Mihai, and PATRAȘ, Antoanela

Subjects

wine industry, grapes, grape pomaces, wine yeasts, grape seeds, vinasse, Social Sciences

Abstract

One of the economy key sectors of Republic of Moldova and Romania is the wine sector, where a progressive trend has prevailed in recent years. But to increase its efficiency it is necessary to use the raw material in a complex way, producing both famous wines and other necessary products, as well as to comply with the rigors of ecological standards. The issue of wine by-products draws the attention and interest of researchers, regulators, industry and consumers and has urged the European Community to a zero waste economy by 2025. The article deals with the chemical composition of the main parts of grapes which depend on a number of factors, such as variety, climatic conditions of the year, vine and wine making practices, condition of the grapes, their maturity, etc. There have been presented physico-chemical characteristics of the wastes obtained from the grapes processing such as: bunches, grape pomaces, inasse piquette and diffusion juice, seeds, wine yeast, tirighia and v . Thus, by making use of wine wastes, a number of valuable products can be obtained that can be used for different purposes.

Published

2021

20. Precursors consumption preferences and thiol release capacity of the wine yeasts Saccharomyces cerevisiae, Torulaspora delbrueckii, and Lachancea thermotolerans.

Author

Vicente, J., Kiene, F., Fracassetti, D., De Noni, I., Shemehen, R., Tarasov, A., Dobrydnev, A.V., Marquina, D., Santos, A., Rauhut, D., Belda, I., and Ruiz, J.

Subjects

*SACCHAROMYCES cerevisiae, *AROMATIC compounds, *SAUVIGNON blanc, *MANUFACTURING processes, *AMINO acids, *YEAST

Abstract

The aromatic profile of wine determines its overall final quality, and among the volatile molecules that define it, varietal thiols are responsible for shaping the distinctive character of certain wine varieties. In grape must, these thiols are conjugated to amino acids or small peptides in a non-volatile form. During wine fermentation, yeasts play a principal role in expressing these aromatic compounds as they internalise and cleavage these precursors, releasing the corresponding free and aroma-impacting fraction. Here, we investigate the impact of three wine yeasts (Saccharomyces cerevisiae , Torulaspora delbrueckii and Lachancea thermotolerans) on thiol releasing in synthetic grape must fermentations supplemented with different cysteinylated (Cys-4MSP and Cys-3SH) and glutathionylated (GSH-4MSP and GSH-3SH) precursors. We demonstrate higher consumption levels of cysteinylated precursors, and consequently, higher amounts of thiols are released from them compared to glutathionylated ones. We also report a significant impact of yeast inoculated on the final thiols released. Meanwhile T. delkbrueckii exhibits a great 3SHA releasing capacity, L. thermotolerans stands out because of its high 3SH release. We also highlight the synergic effect of the co-inoculation strategy, especially relevant in the case of S. cerevisiae and L. thermotolerans mixed fermentation, that has an outstanding release of 4MSP thiol. Although our results stem from a specific experimental approach that differs from real winemaking situations, these findings reveal the potential of unravelling the specific role of different yeast species, thiol precursors and their interaction, to improve wine production processes in the context of wine aroma enhancement. • Yeasts exhibit a high capacity for metabolising cysteinylated precursors. • Td greatly produces 3-SHA, while Lt is unable to do it. • Lt exhibit high 3SH release and great 4MSP production under mixed fermentation. [ABSTRACT FROM AUTHOR]

Published

2024

21. Expectable diversity patterns in wine yeast communities.

Author

de Celis, Miguel, Ruiz, Javier, Vicente, Javier, Acedo, Alberto, Marquina, Domingo, Santos, Antonio, and Belda, Ignacio

Subjects

*WINE flavor & odor, *COMMUNITIES, *YEAST, *WINES, *WINE industry

Abstract

Wine fermentations are dominated by Saccharomyces yeast. However, dozens of non- Saccharomyces yeast genera can be found in grape musts and in the early and intermediate stages of wine fermentation, where they co-exist with S. cerevisiae. The diversity of non- Saccharomyces species is determinant for the sensorial attributes of the resulting wines, both directly (by producing aroma impact compounds) and indirectly (modulating the performance of Saccharomyces). Many research groups worldwide are exploring the great diversity of wine yeasts to exploit their metabolic potential to improve wine flavor or to prevent wine spoilage. In this work, we share a new data set from a wide ITS amplicon survey of 272 wine samples, and we perform a preliminary exploration to build a catalogue of 242 fungal and yeast genera detectable in wine samples, estimating global figures of their prevalence and relative abundance patterns across wine samples. Thus, our mycobiome survey provides a broad measure of the yeast diversity potentially found in wine fermentations; we hope that the wine yeast research community finds it useful, and we also want to encourage further discussion on the advantages and limitations that meta-taxonomic studies may have in wine research and industry. [ABSTRACT FROM AUTHOR]

Published

2022

22. Disentangling the genetic bases of Saccharomyces cerevisiae nitrogen consumption and adaptation to low nitrogen environments in wine fermentation

Author

Eduardo I. Kessi-Pérez, Jennifer Molinet, and Claudio Martínez

Subjects

Saccharomyces cerevisiae, Wine yeasts, Nitrogen consumption, Wine fermentation, Natural variation, Wild alleles, Biology (General), QH301-705.5

Abstract

Abstract The budding yeast Saccharomyces cerevisiae has been considered for more than 20 years as a premier model organism for biological sciences, also being the main microorganism used in wide industrial applications, like alcoholic fermentation in the winemaking process. Grape juice is a challenging environment for S. cerevisiae, with nitrogen deficiencies impairing fermentation rate and yeast biomass production, causing stuck or sluggish fermentations, thus generating sizeable economic losses for wine industry. In the present review, we summarize some recent efforts in the search of causative genes that account for yeast adaptation to low nitrogen environments, specially focused in wine fermentation conditions. We start presenting a brief perspective of yeast nitrogen utilization under wine fermentative conditions, highlighting yeast preference for some nitrogen sources above others. Then, we give an outlook of S. cerevisiae genetic diversity studies, paying special attention to efforts in genome sequencing for population structure determination and presenting QTL mapping as a powerful tool for phenotype–genotype correlations. Finally, we do a recapitulation of S. cerevisiae natural diversity related to low nitrogen adaptation, specially showing how different studies have left in evidence the central role of the TORC1 signalling pathway in nitrogen utilization and positioned wild S. cerevisiae strains as a reservoir of beneficial alleles with potential industrial applications (e.g. improvement of industrial yeasts for wine production). More studies focused in disentangling the genetic bases of S. cerevisiae adaptation in wine fermentation will be key to determine the domestication effects over low nitrogen adaptation, as well as to definitely proof that wild S. cerevisiae strains have potential genetic determinants for better adaptation to low nitrogen conditions.

Published

2020

23. Selection of Indigenous Saccharomyces cerevisiae Strains and Exploitation of a Pilot-Plant to Produce Fresh Yeast Starter Cultures in a Winery.

Author

Guerrini, Simona, Barbato, Damiano, Guerrini, Lorenzo, Mari, Eleonora, Buscioni, Giacomo, Mangani, Silvia, Romboli, Yuri, Galli, Viola, Parenti, Alessandro, and Granchi, Lisa

Subjects

YEAST culture, SACCHAROMYCES cerevisiae, WINE flavor & odor, FERMENTATION, GRAPE juice, WINERIES, YEAST

Abstract

The inoculation of grape juice with Saccharomyces cerevisiae strains selected from indigenous yeast populations can be a suitable tool to control alcoholic fermentation, contributing to producing wines with typical flavor and aroma and, hence, the demand for native starter cultures is increasing. However, since low amounts of indigenous yeast biomasses are usually required for local winemaking, the industrial production of these yeasts can be expensive. Therefore, in this study, after selecting an indigenous S. cerevisiae strain based on relevant oenological and technological features, a pilot-plant for easy and rapid production of fresh yeast biomass directly in a winery located in Tuscany, was exploited. The selected yeast strain was used as a starter to carry out 25 and 100 hL fermentations and its enological performance was compared with that of the commercial starter normally used in the winery. Chemical and sensory analysis of the resulting wines showed that they differentiated according to the used yeast strain, with the wines produced by the indigenous S. cerevisiae strain being characterized by a distinctive aromatic and sensory profile. In conclusion, the pilot-plant effectively resulted in producing fresh yeast starter cultures in the winery to be successfully used to carry out alcoholic fermentations. [ABSTRACT FROM AUTHOR]

Published

2021

24. Sequence-based analysis of the Vitis vinifera L. cv Cabernet Sauvignon grape must mycobiome in three South African vineyards employing distinct agronomic systems

Author

Bauer, Florian [Stellenbosch Univ., Stellenbosch (South Africa)]

Published

2015

25. Screening of Saccharomyces and Non-Saccharomyces Wine Yeasts for Their Decarboxylase Activity of Amino Acids

Author

Gabriella Siesto, Maria Rosaria Corbo, Rocchina Pietrafesa, Milena Sinigaglia, Patrizia Romano, and Antonio Bevilacqua

Subjects

decarboxylase activity, amino acids, wine yeasts, Saccharomyces strains, non-Saccharomyces strains, yeast selection program, Chemical technology, TP1-1185

Abstract

The type and quantity of precursor amino acids present in grape must that are used by wine yeasts affect the organoleptic and health properties of wine. The aim of this work was to conduct a preliminary screening among Saccharomyces and non-Saccharomyces indigenous strains, which were previously isolated from different Italian regional grape varieties. This was performed in order to evaluate their decarboxylase activity on certain important amino acids—such as arginine, proline, serine, and tyrosine—that are present in grape must. In particular, a qualitative test on 122 wine yeasts was performed on a decarboxylase medium using arginine, proline, serine, and tyrosine as precursor amino acids. Our results showed a considerable variability among the microbial species tested for this parameter. Indeed, Saccharomyces cerevisiae strains exhibited a high decarboxylase capability of the four amino acids tested; moreover, only 10% of the total (i.e., a total of 81) did not show this trait. A high recovery of decarboxylation ability for at least one amino acid was also found for Zygosaccharomyces bailii and Hanseniaspora spp. These findings can, therefore, promote the inclusion of decarboxylase activity as an additional characteristic in a wine yeast selection program in order to choose starter cultures that possess desirable technological traits; moreover, this also can contribute to the safeguarding of consumer health.

Published

2022

26. Biodiversity and Oenological Property Analysis of Non-Saccharomyces Yeasts Isolated from Korla Fragrant Pears (Pyrus sinkiangensis Yu)

Author

Yinfeng Li, Yuanmin Huang, Hua Long, Zhihai Yu, Mingzheng Huang, and Xiaozhu Liu

Subjects

Korla fragrant pears, wine yeasts, biodiversity, oenological property, fruit wine, Fermentation industries. Beverages. Alcohol, TP500-660

Abstract

Oenological yeasts play a critical role in the winemaking process. In this study, the biodiversity of the non-Saccharomyces yeast was analyzed and monitored using high-throughput sequencing and culture-dependent approaches. Oenological and fermentation characteristics of these native yeasts were further investigated. A total of 241 fungus species and 5 species of culturable non-Saccharomyces yeasts were detected using high-throughput sequencing and culture-dependent approaches, respectively. Five strains of aroma-producing yeasts (K4, K14, K19, K21, and K26) were isolated, and their growth characteristics, carbon source utilization, hydrogen sulfide production performance, and β-glucosidase activity were different. The oenological condition tolerances of most strains were lower than that of commercial S. cerevisiae X16. The co-inoculum of these strains and S. cerevisiae X16 regulated the volatile aroma characteristics of the fermented Korla fragrant pear (KFP) fruit wine, enriching and complicating the aroma flavor. Thus, the combined inoculation of these indigenous wine yeasts and S. cerevisiae has some application potential in the production of KFP wine.

Published

2022

27. An Overview of CRISPR-Based Technologies in Wine Yeasts to Improve Wine Flavor and Safety.

Author

Vilela, Alice

Subjects

WINE flavor & odor, CRISPRS, YEAST, NUTRITIONAL requirements, GENETIC techniques

Abstract

Modern industrial winemaking is based on the use of specific starters of wine strains. Commercial wine strains present several advantages over natural isolates, and it is their use that guarantees the stability and reproducibility of industrial winemaking technologies. For the highly competitive wine market with new demands for improved wine quality and wine safety, it has become increasingly critical to develop new yeast strains. In the last decades, new possibilities arose for creating upgraded wine yeasts in the laboratory, resulting in the development of strains with better fermentation abilities, able to improve the sensory quality of wines and produce wines targeted to specific consumers, considering their health and nutrition requirements. However, only two genetically modified (GM) wine yeast strains are officially registered and approved for commercial use. Compared with traditional genetic engineering methods, CRISPR/Cas9 is described as efficient, versatile, cheap, easy-to-use, and able to target multiple sites. This genetic engineering technique has been applied to Saccharomyces cerevisiae since 2013. In this review, we aimed to overview the use of CRISPR/Cas9 editing technique in wine yeasts to combine develop phenotypes able to increase flavor compounds in wine without the development of off-flavors and aiding in the creation of "safer wines". [ABSTRACT FROM AUTHOR]

Published

2021

28. Whole-Genome Sequencing and Annotation of the Yeast Clavispora santaluciae Reveals Important Insights about Its Adaptation to the Vineyard Environment

Author

Ricardo Franco-Duarte, Neža Čadež, Teresa Rito, João Drumonde-Neves, Yazmid Reyes Dominguez, Célia Pais, Maria João Sousa, and Pedro Soares

Subjects

genomics, phylogenomics, functional gene analysis, Metschnikowiaceae, Azores, wine yeasts, Biology (General), QH301-705.5

Abstract

Clavispora santaluciae was recently described as a novel non-Saccharomyces yeast species, isolated from grapes of Azores vineyards, a Portuguese archipelago with particular environmental conditions, and from Italian grapes infected with Drosophila suzukii. In the present work, the genome of five Clavispora santaluciae strains was sequenced, assembled, and annotated for the first time, using robust pipelines, and a combination of both long- and short-read sequencing platforms. Genome comparisons revealed specific differences between strains of Clavispora santaluciae reflecting their isolation in two separate ecological niches—Azorean and Italian vineyards—as well as mechanisms of adaptation to the intricate and arduous environmental features of the geographical location from which they were isolated. In particular, relevant differences were detected in the number of coding genes (shared and unique) and transposable elements, the amount and diversity of non-coding RNAs, and the enzymatic potential of each strain through the analysis of their CAZyome. A comparative study was also conducted between the Clavispora santaluciae genome and those of the remaining species of the Metschnikowiaceae family. Our phylogenetic and genomic analysis, comprising 126 yeast strains (alignment of 2362 common proteins) allowed the establishment of a robust phylogram of Metschnikowiaceae and detailed incongruencies to be clarified in the future.

Published

2022

29. Chemical and sensory features of Torrontés Riojano sparkling wines produced by second fermentation in bottle using different Saccharomyces strains.

Author

Raymond Eder, María Laura, Fariña, Laura, Dellacassa, Eduardo, Carrau, Francisco, and Rosa, Alberto Luis

Subjects

*SPARKLING wines, *WINE flavor & odor, *ESTERS, *FERMENTATION, *SACCHAROMYCES, *ETHYL esters, *CHEMICAL properties

Abstract

Chemical and sensory properties of Torrontés Riojano sparkling wines, prepared using second fermentation with Saccharomyces strains EC1118, bayanus C12 and IFI473I, were explored. All sparkling wines showed high levels of several volatile ethyl esters and terpenes associated to fruity and floral aromas. The sensory profiles showed significant differences for the floral aroma descriptor among EC1118, bayanus C12 and IFI473I and for bubble persistence for strain bayanus C12. Our results suggest that the sensory properties of these sparkling wines could be dependent on the chemical and organoleptic properties of the base wine more than the yeast strain used for second fermentation. [ABSTRACT FROM AUTHOR]

Published

2020

30. Modulating Wine Pleasantness Throughout Wine-Yeast Co-Inoculation or Sequential Inoculation.

Author

Vilela, Alice

Subjects

LACTIC acid bacteria, VACCINATION, WINE tasting, WINES, COLOR of wine, COLORING matter, GRAPE varieties

Abstract

Wine sensory experience includes flavor, aroma, color, and (for some) even acoustic traits, which impact consumer acceptance. The quality of the wine can be negatively impacted by the presence of off-flavors and aromas, or dubious colors, or sediments present in the bottle or glass, after pouring (coloring matter that precipitates or calcium bitartrate crystals). Flavor profiles of wines are the result of a vast number of variations in vineyard and winery production, including grape selection, winemaker's knowledge and technique, and tools used to produce wines with a specific flavor. Wine color, besides being provided by the grape varieties, can also be manipulated during the winemaking. One of the most important "tools" for modulating flavor and color in wines is the choice of the yeasts. During alcoholic fermentation, the wine yeasts extract and metabolize compounds from the grape must by modifying grape-derived molecules, producing flavor-active compounds, and promoting the formation of stable pigments by the production and release of fermentative metabolites that affect the formation of vitisin A and B type pyranoanthocyanins. This review covers the role of Saccharomyces and non-Saccharomyces yeasts, as well as lactic acid bacteria, on the perceived flavor and color of wines and the choice that winemakers can make by choosing to perform co-inoculation or sequential inoculation, a choice that will help them to achieve the best performance in enhancing these wine sensory qualities, avoiding spoilage and the production of defective flavor or color compounds. [ABSTRACT FROM AUTHOR]

Published

2020

31. Disentangling the genetic bases of Saccharomyces cerevisiae nitrogen consumption and adaptation to low nitrogen environments in wine fermentation.

Author

Kessi-Pérez, Eduardo I., Molinet, Jennifer, and Martínez, Claudio

Abstract

The budding yeast Saccharomyces cerevisiae has been considered for more than 20 years as a premier model organism for biological sciences, also being the main microorganism used in wide industrial applications, like alcoholic fermentation in the winemaking process. Grape juice is a challenging environment for S. cerevisiae, with nitrogen deficiencies impairing fermentation rate and yeast biomass production, causing stuck or sluggish fermentations, thus generating sizeable economic losses for wine industry. In the present review, we summarize some recent efforts in the search of causative genes that account for yeast adaptation to low nitrogen environments, specially focused in wine fermentation conditions. We start presenting a brief perspective of yeast nitrogen utilization under wine fermentative conditions, highlighting yeast preference for some nitrogen sources above others. Then, we give an outlook of S. cerevisiae genetic diversity studies, paying special attention to efforts in genome sequencing for population structure determination and presenting QTL mapping as a powerful tool for phenotype–genotype correlations. Finally, we do a recapitulation of S. cerevisiae natural diversity related to low nitrogen adaptation, specially showing how different studies have left in evidence the central role of the TORC1 signalling pathway in nitrogen utilization and positioned wild S. cerevisiae strains as a reservoir of beneficial alleles with potential industrial applications (e.g. improvement of industrial yeasts for wine production). More studies focused in disentangling the genetic bases of S. cerevisiae adaptation in wine fermentation will be key to determine the domestication effects over low nitrogen adaptation, as well as to definitely proof that wild S. cerevisiae strains have potential genetic determinants for better adaptation to low nitrogen conditions. [ABSTRACT FROM AUTHOR]

Published

2020

32. METHODS FOR PRODUCING LOW-ALCOHOL WINE II. FERMENTATION AND POST-FERMENTATION STRATEGIES.

Author

V. R., FILIMON, Şt., SANDU-VILLE, F. D., BORA, Georgeta, TUDOR, Roxana, FILIMON, Ancuţa, NECHITA, and Monica, ZAIŢ

Subjects

WINES, FERMENTATION, CLIMATE change, GRAPES, VITICULTURE, ENERGY consumption

Abstract

Copyright of Lucrari Stiintifice, Universitatea de Stiinte Agricole Si Medicina Veterinara Ion Ionescu de la Brad Iasi, Seria Horticultura is the property of University of Agricultural Sciences and Veterinary Medicine (Editura Ion Ionescu de la Brad) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

33. Predictability of the community-function landscape in wine yeast ecosystems

Author

Agencia Estatal de Investigación (España), Ruiz, Javier [0000-0002-7657-3329], de Celis, Miguel [0000-0002-3653-3031], Díaz-Colunga, Juan [0000-0001-8995-4529], Vila, Jean [0000-0003-0499-0200], Benitez-Dominguez, Belén [0009-0005-2209-9739], Sánchez, Álvaro [0000-0002-2292-5608], Belda, Ignacio [0000-0002-2607-5049], Ruiz, Javier, de Celis, Miguel, Díaz-Colunga, Juan, Vila, Jean, Benitez-Dominguez, Belén, Vicente, Javier, Santos, Antonio, Sánchez, Álvaro, Belda, Ignacio, Agencia Estatal de Investigación (España), Ruiz, Javier [0000-0002-7657-3329], de Celis, Miguel [0000-0002-3653-3031], Díaz-Colunga, Juan [0000-0001-8995-4529], Vila, Jean [0000-0003-0499-0200], Benitez-Dominguez, Belén [0009-0005-2209-9739], Sánchez, Álvaro [0000-0002-2292-5608], Belda, Ignacio [0000-0002-2607-5049], Ruiz, Javier, de Celis, Miguel, Díaz-Colunga, Juan, Vila, Jean, Benitez-Dominguez, Belén, Vicente, Javier, Santos, Antonio, Sánchez, Álvaro, and Belda, Ignacio

Abstract

Predictively linking taxonomic composition and quantitative ecosystem functions is a major aspiration in microbial ecology, which must be resolved if we wish to engineer microbial consortia. Here, we have addressed this open question for an ecological function of major biotechnological relevance: alcoholic fermentation in wine yeast communities. By exhaustively phenotyping an extensive collection of naturally occurring wine yeast strains, we find that most ecologically and industrially relevant traits exhibit phylogenetic signal, allowing functional traits in wine yeast communities to be predicted from taxonomy. Furthermore, we demonstrate that the quantitative contributions of individual wine yeast strains to the function of complex communities followed simple quantitative rules. These regularities can be integrated to quantitatively predict the function of newly assembled consortia. Besides addressing theoretical questions in functional ecology, our results and methodologies can provide a blueprint for rationally managing microbial processes of biotechnological relevance.

Published

2023

34. Impact of rare yeasts in Saccharomyces cerevisiae wine fermentation performance: Population prevalence and growth phenotype of Cyberlindnera fabianii, Kazachstania unispora, and Naganishia globosa

Author

Universitat Rovira i Virgili, Vicente J; Ruiz J; Tomasi S; de Celis M; Ruiz-de-Villa C; Gombau J; Rozès N; Zamora F; Santos A; Marquina D; Belda I, Universitat Rovira i Virgili, and Vicente J; Ruiz J; Tomasi S; de Celis M; Ruiz-de-Villa C; Gombau J; Rozès N; Zamora F; Santos A; Marquina D; Belda I

Abstract

Saccharomyces cerevisiae is a highly fermentative species able to complete the wine fermentation. However, the interaction with other non-Saccharomyces yeasts can determine the fermentation performance of S. cerevisiae. We have characterised three rare non-Saccharomyces yeasts (Cyberlindnera fabianii, Kazachstania unispora and Naganishia globosa), studying their impact on S. cerevisiae fitness and wine fermentation performance. Using a wide meta-taxonomic dataset of wine samples, analysed through ITS amplicon sequencing, we show that about a 65.07% of wine samples contains Naganishia spp., a 27.21% contains Kazachstania spp., and only a 4.41% contains Cyberlindnera spp; in all cases with average relative abundances lower than 1% of total fungal populations. Although the studied N. globosa strain showed a limited growth capacity in wine, both K. unispora and C. fabianii showed a similar growth phenotype to that of S. cerevisiae in different fermentation conditions, highlighting the outstanding growth rate values of K. unispora. In mixed fermentations with S. cerevisiae, the three yeast species affected co-culture growth parameters and wine chemical profile (volatile compounds, polysaccharides and proteins). K. unispora DN201 strain presents an outstanding capacity to compete with S. cerevisiae strains during the first stage of wine fermentation, causing stuck fermentations in both synthetic and natural grape musts.

Published

2023

35. Wine Yeasts Selection: Laboratory Characterization and Protocol Review

Author

Rossana Sidari, Katarína Ženišová, Blanka Tobolková, Elena Belajová, Tereza Cabicarová, Mária Bučková, Andrea Puškárová, Matej Planý, Tomáš Kuchta, and Domenico Pangallo

Subjects

wine yeasts, Saccharomyces, non-Saccharomyces, enological characteristics, screening, starter selection, Biology (General), QH301-705.5

Abstract

Wine reflects the specificity of a terroir, including the native microbiota. In contrast to the use of Saccharomyces cerevisiae commercial starters, a way to maintain wines’ microbial terroir identities, guaranteeing at the same time the predictability and reproducibility of the wines, is the selection of autochthonous Saccharomyces and non-Saccharomyces strains towards optimal enological characteristics for the chosen area of isolation. This field has been explored but there is a lack of a compendium covering the main methods to use. Autochthonous wine yeasts from different areas of Slovakia were identified and tested, in the form of colonies grown either on nutrient agar plates or in grape must micro-fermentations, for technological and qualitative enological characteristics. Based on the combined results, Saccharomyces cerevisiae PDA W 10, Lachancea thermotolerans 5-1-1 and Metschnikowia pulcherrima 125/14 were selected as potential wine starters. This paper, as a mixture of experimental and review contributions, provides a compendium of methods used to select autochthonous wine yeasts. Thanks to the presence of images, this compendium could guide other researchers in screening their own yeast strains for wine production.

Published

2021

36. Understanding Wine through Yeast Interactions

Author

Evangelia A. Zilelidou and Aspasia Nisiotou

Subjects

alcoholic fermentation, wine yeasts, Saccharomyces cerevisiae, non-Saccharomyces yeasts, yeast competition, biotic stress, Biology (General), QH301-705.5

Abstract

Wine is a product of microbial activities and microbe–microbe interactions. Yeasts are the principal microorganisms responsible for the evolution and fulfillment of alcoholic fermentation. Several species and strains coexist and interact with their environment and with each other during the fermentation course. Yeast–yeast interactions occur even from the early stages of fermentation, determining yeast community structure and dynamics during the process. Different types of microbial interactions (e.g., mutualism and commensalism or competition and amensalism) may exert positive or negative effects, respectively, on yeast populations. Interactions are intimately linked to yeast metabolic activities that influence the wine analytical profile and shape the wine character. In this context, much attention has been given during the last years to the interactions between Saccharomyces cerevisiae (SC) and non-Saccharomyces (NS) yeast species with respect to their metabolic contribution to wine quality. Yet, there is still a significant lack of knowledge on the interaction mechanisms modulating yeast behavior during mixed culture fermentation, while much less is known about the interactions between the various NS species or between SC and Saccharomyces non-cerevisiae (SNC) yeasts. There is still much to learn about their metabolic footprints and the genetic mechanisms that alter yeast community equilibrium in favor of one species or another. Gaining deeper insights on yeast interactions in the grape–wine ecosystem sets the grounds for understanding the rules underlying the function of the wine microbial system and provides means to better control and improve oenological practices.

Published

2021

37. Selection of Indigenous Saccharomyces cerevisiae Strains and Exploitation of a Pilot-Plant to Produce Fresh Yeast Starter Cultures in a Winery

Author

Simona Guerrini, Damiano Barbato, Lorenzo Guerrini, Eleonora Mari, Giacomo Buscioni, Silvia Mangani, Yuri Romboli, Viola Galli, Alessandro Parenti, and Lisa Granchi

Subjects

wine yeasts, Saccharomyces cerevisiae, wine fermentation, indigenous yeast strains, yeast strain selection, yeast production, Fermentation industries. Beverages. Alcohol, TP500-660

Abstract

The inoculation of grape juice with Saccharomyces cerevisiae strains selected from indigenous yeast populations can be a suitable tool to control alcoholic fermentation, contributing to producing wines with typical flavor and aroma and, hence, the demand for native starter cultures is increasing. However, since low amounts of indigenous yeast biomasses are usually required for local winemaking, the industrial production of these yeasts can be expensive. Therefore, in this study, after selecting an indigenous S. cerevisiae strain based on relevant oenological and technological features, a pilot-plant for easy and rapid production of fresh yeast biomass directly in a winery located in Tuscany, was exploited. The selected yeast strain was used as a starter to carry out 25 and 100 hL fermentations and its enological performance was compared with that of the commercial starter normally used in the winery. Chemical and sensory analysis of the resulting wines showed that they differentiated according to the used yeast strain, with the wines produced by the indigenous S. cerevisiae strain being characterized by a distinctive aromatic and sensory profile. In conclusion, the pilot-plant effectively resulted in producing fresh yeast starter cultures in the winery to be successfully used to carry out alcoholic fermentations.

Published

2021

38. Aneuploidy and Ethanol Tolerance in Saccharomyces cerevisiae

Author

Miguel Morard, Laura G. Macías, Ana C. Adam, María Lairón-Peris, Roberto Pérez-Torrado, Christina Toft, and Eladio Barrio

Subjects

Saccharomyces cerevisiae, wine yeasts, chromosome III, aneuploidy, comparative genomics, ethanol tolerance, Genetics, QH426-470

Abstract

Response to environmental stresses is a key factor for microbial organism growth. One of the major stresses for yeasts in fermentative environments is ethanol. Saccharomyces cerevisiae is the most tolerant species in its genus, but intraspecific ethanol-tolerance variation exists. Although, much effort has been done in the last years to discover evolutionary paths to improve ethanol tolerance, this phenotype is still hardly understood. Here, we selected five strains with different ethanol tolerances, and used comparative genomics to determine the main factors that can explain these phenotypic differences. Surprisingly, the main genomic feature, shared only by the highest ethanol-tolerant strains, was a polysomic chromosome III. Transcriptomic data point out that chromosome III is important for the ethanol stress response, and this aneuploidy can be an advantage to respond rapidly to ethanol stress. We found that chromosome III copy numbers also explain differences in other strains. We show that removing the extra chromosome III copy in an ethanol-tolerant strain, returning to euploidy, strongly compromises its tolerance. Chromosome III aneuploidy appears frequently in ethanol-tolerance evolution experiments, and here, we show that aneuploidy is also used by natural strains to enhance their ethanol tolerance.

Published

2019

39. Aneuploidy and Ethanol Tolerance in Saccharomyces cerevisiae.

Author

Morard, Miguel, Macías, Laura G., Adam, Ana C., Lairón-Peris, María, Pérez-Torrado, Roberto, Toft, Christina, and Barrio, Eladio

Subjects

ANEUPLOIDY, ETHANOL, SACCHAROMYCES cerevisiae, ENVIRONMENTAL engineering, MICROBIAL growth, FERMENTATION

Abstract

Response to environmental stresses is a key factor for microbial organism growth. One of the major stresses for yeasts in fermentative environments is ethanol. Saccharomyces cerevisiae is the most tolerant species in its genus, but intraspecific ethanol-tolerance variation exists. Although, much effort has been done in the last years to discover evolutionary paths to improve ethanol tolerance, this phenotype is still hardly understood. Here, we selected five strains with different ethanol tolerances, and used comparative genomics to determine the main factors that can explain these phenotypic differences. Surprisingly, the main genomic feature, shared only by the highest ethanol-tolerant strains, was a polysomic chromosome III. Transcriptomic data point out that chromosome III is important for the ethanol stress response, and this aneuploidy can be an advantage to respond rapidly to ethanol stress. We found that chromosome III copy numbers also explain differences in other strains. We show that removing the extra chromosome III copy in an ethanol-tolerant strain, returning to euploidy, strongly compromises its tolerance. Chromosome III aneuploidy appears frequently in ethanol-tolerance evolution experiments, and here, we show that aneuploidy is also used by natural strains to enhance their ethanol tolerance. [ABSTRACT FROM AUTHOR]

Published

2019

40. An Overview of CRISPR-Based Technologies in Wine Yeasts to Improve Wine Flavor and Safety

Author

Alice Vilela

Subjects

wine yeasts, safer wine, glycerol, esters, ethyl carbamate, CRISPR/cas9, Fermentation industries. Beverages. Alcohol, TP500-660

Abstract

Modern industrial winemaking is based on the use of specific starters of wine strains. Commercial wine strains present several advantages over natural isolates, and it is their use that guarantees the stability and reproducibility of industrial winemaking technologies. For the highly competitive wine market with new demands for improved wine quality and wine safety, it has become increasingly critical to develop new yeast strains. In the last decades, new possibilities arose for creating upgraded wine yeasts in the laboratory, resulting in the development of strains with better fermentation abilities, able to improve the sensory quality of wines and produce wines targeted to specific consumers, considering their health and nutrition requirements. However, only two genetically modified (GM) wine yeast strains are officially registered and approved for commercial use. Compared with traditional genetic engineering methods, CRISPR/Cas9 is described as efficient, versatile, cheap, easy-to-use, and able to target multiple sites. This genetic engineering technique has been applied to Saccharomyces cerevisiae since 2013. In this review, we aimed to overview the use of CRISPR/Cas9 editing technique in wine yeasts to combine develop phenotypes able to increase flavor compounds in wine without the development of off-flavors and aiding in the creation of “safer wines.”

Published

2021

41. Insights into the transcriptional regulation of poorly characterized alcohol acetyltransferase-encoding genes (HgAATs) shed light into the production of acetate esters in the wine yeast Hanseniaspora guilliermondii

Author

Isabel Seixas, Diogo Santos, Isabel Vasconcelos, Nuno P Mira, Ana Mendes-Ferreira, and Veritati - Repositório Institucional da Universidade Católica Portuguesa

Subjects

Acetate esters and higher alcohols, Wine yeasts, Non-saccharomyces yeasts, General Medicine, Applied Microbiology and Biotechnology, Microbiology, Hanseniaspora guilliermondii, Alcohol acetyltransferases

Abstract

Hanseniaspora guilliermondii is a well-recognized producer of acetate esters associated with fruity and floral aromas. The molecular mechanisms underneath this production or the environmental factors modulating it remain unknown. Herein, we found that, unlike Saccharomyces cerevisiae, H. guilliermondii over-produces acetate esters and higher alcohols at low carbon-to-assimilable nitrogen (C:N) ratios, with the highest titers being obtained in the amino acid-enriched medium YPD. The evidences gathered support a model in which the strict preference of H. guilliermondii for amino acids as nitrogen sources results in a channeling of keto-acids obtained after transamination to higher alcohols and acetate esters. This higher production was accompanied by higher expression of the four HgAATs, genes, recently proposed to encode alcohol acetyl transferases. In silico analyses of these HgAat’s reveal that they harbor conserved AATs motifs, albeit radical substitutions were identified that might result in different kinetic properties. Close homologues of HgAat2, HgAat3, and HgAat4 were only found in members of Hanseniaspora genus and phylogenetic reconstruction shows that these constitute a distinct family of Aat’s. These results advance the exploration of H. guilliermondii as a bio-flavoring agent providing important insights to guide future strategies for strain engineering and media manipulation that can enhance production of aromatic volatiles.

Published

2023

42. Patterns of Genetic Diversity and the Invasion of Commercial Starters in Saccharomyces cerevisiae Vineyard Populations of Santorini Island

Author

Ioanna Chalvantzi, Georgios Banilas, Chrysoula Tassou, and Aspasia Nisiotou

Subjects

wine yeasts, genetic diversity, interdelta PCR, genotyping, Saccharomyces cerevisiae, Chemical technology, TP1-1185

Abstract

Autochthonous Saccharomyces cerevisiae vineyard populations are important components of the grape/wine system. Besides their direct impact on winemaking, they also constitute an untapped reservoir of genotypes with special technological attributes for the wine industry. Research so far on S. cerevisiae populations has focused on spatial distribution on large scales, yet little is known about the genetic variability of populations within viticultural zones and their temporal genotypic variation. Here, S. cerevisiae populations from different vineyards in Santorini, a small Aegean island, were genotyped and their genetic diversity was assessed within and between vineyards during two consecutive years. Despite the relative geographical isolation of the island, a relatively high genetic diversity was uncovered. The vast majority of genotypes were vineyard-specific, while in one of the vintages, significant differences in the genotypic composition of vineyards were detected. Overall, higher differences were detected between vintages rather than among vineyards. Notably, only four genotypes were common for the two vintages, three of which were commercial S. cerevisiae strains, probably “escapees” from wineries. Nevertheless, the populations of the two vintages were not genetically distinct. Present results highlight the magnitude of genetic diversity in natural wine yeast populations on a small spatial scale, yet the invasion of commercial starters may constitute a potential risk for loss of local yeast biodiversity. However, present results show that industrial strains do not necessarily dominate over the natural strains or their high abundance may be temporary.

Published

2020

43. Modulating Wine Pleasantness Throughout Wine-Yeast Co-Inoculation or Sequential Inoculation

Author

Alice Vilela

Subjects

wine yeasts, lactic acid bacteria, co-inoculation, sequence inoculation, flavor compounds, color pigments, Fermentation industries. Beverages. Alcohol, TP500-660

Abstract

Wine sensory experience includes flavor, aroma, color, and (for some) even acoustic traits, which impact consumer acceptance. The quality of the wine can be negatively impacted by the presence of off-flavors and aromas, or dubious colors, or sediments present in the bottle or glass, after pouring (coloring matter that precipitates or calcium bitartrate crystals). Flavor profiles of wines are the result of a vast number of variations in vineyard and winery production, including grape selection, winemaker’s knowledge and technique, and tools used to produce wines with a specific flavor. Wine color, besides being provided by the grape varieties, can also be manipulated during the winemaking. One of the most important “tools” for modulating flavor and color in wines is the choice of the yeasts. During alcoholic fermentation, the wine yeasts extract and metabolize compounds from the grape must by modifying grape-derived molecules, producing flavor-active compounds, and promoting the formation of stable pigments by the production and release of fermentative metabolites that affect the formation of vitisin A and B type pyranoanthocyanins. This review covers the role of Saccharomyces and non-Saccharomyces yeasts, as well as lactic acid bacteria, on the perceived flavor and color of wines and the choice that winemakers can make by choosing to perform co-inoculation or sequential inoculation, a choice that will help them to achieve the best performance in enhancing these wine sensory qualities, avoiding spoilage and the production of defective flavor or color compounds.

Published

2020

44. Identification and Characterization of Non-Saccharomyces Species Isolated from Port Wine Spontaneous Fermentations

Author

Denisa Mateus, Susana Sousa, Cláudia Coimbra, Frank S. Rogerson, and João Simões

Subjects

non-saccharomyces, wine yeasts, port wine, native yeasts, strain characterization, Chemical technology, TP1-1185

Abstract

In winemaking, non-Saccharomyces yeast species contribute important organoleptic complexity. Current interest focuses on abundant and dominant strains characteristically present in the early phase of spontaneous alcoholic fermentations. Non-Saccharomyces species are particularly relevant in Port wine production such that the fermentation is prematurely stopped, after the metabolism of only one half of the available sugar, through fortification with aguardente. This work aimed to isolate, identify and characterize non-Saccharomyces species present in spontaneously fermenting Port. To accomplish these goals, yeasts were isolated from a selection of frozen must samples (2012−2016 harvests), using a pre-screening process choosing only the best candidates based on the organoleptic quality of the corresponding fortified wine. From five hundred non-Saccharomyces isolates, twelve species were identified. The three most abundant species, Hanseniaspora uvarum, Lachancea thermotolerans, and Metschnikowia pulcherrima, representing 89% of the isolates, exhibited particularly high diversity with high growth performance variability when exposed to typical stress conditions associated with common enological parameters. Less abundant species included Issatchenkia orientalis, Torulaspora delbrueckii, Hanseniaspora vineae, Hanseniaspora osmophila, Candida zemplinina, Rhodotorula mucilaginosa, Hanseniaspora guilliermondii, Issatchenkia occidentalis, and Zygosaccharomyces bisporus. This is the first study providing insights into the identification and characterization of non-Saccharomyces species responsible for spontaneous Port wine production.

Published

2020

45. Analysis of ribosomal RNA stability in dead cells of wine yeast by quantitative PCR.

Author

Sunyer-Figueres, Merce, Wang, Chunxiao, and Mas, Albert

Subjects

*WINE microbiology, *SACCHAROMYCES cerevisiae, *RIBOSOMAL RNA, *CULTURE media (Biology), *ANTI-infective agents

Abstract

During wine production, some yeasts enter a Viable But Not Culturable (VBNC) state, which may influence the quality and stability of the final wine through remnant metabolic activity or by resuscitation. Culture-independent techniques are used for obtaining an accurate estimation of the number of live cells, and quantitative PCR could be the most accurate technique. As a marker of cell viability, rRNA was evaluated by analyzing its stability in dead cells. The species-specific stability of rRNA was tested in Saccharomyces cerevisiae , as well as in three species of non- Saccharomyces yeast ( Hanseniaspora uvarum , Torulaspora delbrueckii and Starmerella bacillaris ). High temperature and antimicrobial dimethyl dicarbonate (DMDC) treatments were efficient in lysing the yeast cells. rRNA gene and rRNA (as cDNA) were analyzed over 48 h after cell lysis by quantitative PCR. The results confirmed the stability of rRNA for 48 h after the cell lysis treatments. To sum up, rRNA may not be a good marker of cell viability in the wine yeasts that were tested. [ABSTRACT FROM AUTHOR]

Published

2018

46. Expectable diversity patterns in wine yeast communities

Author

De Celis Rodríguez, Miguel, Ruiz Ruiz, Javier, Vicente, Javier, Acedo, Alberto, Marquina Díaz, Domingo, Santos de la Sen, Antonio, Belda Aguilar, Ignacio, De Celis Rodríguez, Miguel, Ruiz Ruiz, Javier, Vicente, Javier, Acedo, Alberto, Marquina Díaz, Domingo, Santos de la Sen, Antonio, and Belda Aguilar, Ignacio

Abstract

Wine fermentations are dominated by Saccharomyces yeast. However, dozens of non-Saccharomyces yeast genera can be found in grape musts and in the early and intermediate stages of wine fermentation, where they co-exist with S. cerevisiae. The diversity of non-Saccharomyces species is determinant for the sensorial attributes of the resulting wines, both directly (by producing aroma impact compounds) and indirectly (modulating the performance of Saccharomyces). Many research groups worldwide are exploring the great diversity of wine yeasts to exploit their metabolic potential to improve wine flavor or to prevent wine spoilage. In this work, we share a new data set from a wide ITS amplicon survey of 272 wine samples, and we perform a preliminary exploration to build a catalogue of 242 fungal and yeast genera detectable in wine samples, estimating global figures of their prevalence and relative abundance patterns across wine samples. Thus, our mycobiome survey provides a broad measure of the yeast diversity potentially found in wine fermentations; we hope that the wine yeast research community finds it useful, and we also want to encourage further discussion on the advantages and limitations that meta-taxonomic studies may have in wine research and industry., Ministerio de Ciencia e Innovación (MCIN)/Agencia Estatal de Investigación, Depto. de Genética, Fisiología y Microbiología, Fac. de Ciencias Biológicas, TRUE, pub

Published

2022

47. Impact of rare yeasts in Saccharomyces cerevisiae wine fermentation performance: Population prevalence and growth phenotype of Cyberlindnera fabianii, Kazachstania unispora, and Naganishia globosa

Author

Vicente Sánchez, Javier, Ruiz Ruiz, Javier, Tomasi Montes, Sandra, Celis Rodríguez, Miguel de, Ruiz de Villa, Candela, Gombau, Jordi, Rozès, Nicolás, Zamora, Fernando, Santos de la Sen, Antonio, Marquina Díaz, Domingo, Belda Aguilar, Ignacio, Vicente Sánchez, Javier, Ruiz Ruiz, Javier, Tomasi Montes, Sandra, Celis Rodríguez, Miguel de, Ruiz de Villa, Candela, Gombau, Jordi, Rozès, Nicolás, Zamora, Fernando, Santos de la Sen, Antonio, Marquina Díaz, Domingo, and Belda Aguilar, Ignacio

Abstract

CRUE-CSIC (Acuerdos transformativos 2022), Saccharomyces cerevisiae is a highly fermentative species able to complete the wine fermentation. However, the interaction with other non-Saccharomyces yeasts can determine the fermentation performance of S. cerevisiae. We have characterised three rare non-Saccharomyces yeasts (Cyberlindnera fabianii, Kazachstania unispora and Naganishia globosa), studying their impact on S. cerevisiae fitness and wine fermentation performance. Using a wide meta-taxonomic dataset of wine samples, analysed through ITS amplicon sequencing, we show that about a 65.07% of wine samples contains Naganishia spp., a 27.21% contains Kazachstania spp., and only a 4.41% contains Cyberlindnera spp; in all cases with average relative abundances lower than 1% of total fungal populations. Although the studied N. globosa strain showed a limited growth capacity in wine, both K. unispora and C. fabianii showed a similar growth phenotype to that of S. cerevisiae in different fermentation conditions, highlighting the outstanding growth rate values of K. unispora. In mixed fermentations with S. cerevisiae, the three yeast species affected co-culture growth parameters and wine chemical profile (volatile compounds, polysaccharides and proteins). K. unispora DN201 strain presents an outstanding capacity to compete with S. cerevisiae strains during the first stage of wine fermentation, causing stuck fermentations in both synthetic and natural grape musts., Ministerio de Ciencia e Innovación (MICINN) (10.13039/ 501100011033)., Universidad Complutense de Madrid, Depto. de Genética, Fisiología y Microbiología, Fac. de Ciencias Biológicas, TRUE, pub

Published

2022

48. CAPITALIZATION OF SECONDARY WINE PRODUCTS - AN OPPORTUNITY FOR THE WINE SECTOR OF REPUBLIC OF MOLDOVA AND ROMANIA

Author

Grigore Musteață, Antoanela Patras, Anatol Balanuță, Marius Mihai Băetu, Razvan Vasile Filimon, and Vladislav Reșitca

Subjects

Wine, Social Sciences, wine yeasts, vinasse, Agricultural economics, wine industry, grape seeds, grape pomaces, Business, Viticulture, Capitalization, grapes, Wine industry, Waste processing

Abstract

One of the economy key sectors of Republic of Moldova and Romania is the wine sector, where a progressive trend has prevailed in recent years. But to increase its efficiency it is necessary to use the raw material in a complex way, producing both famous wines and other necessary products, as well as to comply with the rigors of ecological standards. The issue of wine by-products draws the attention and interest of researchers, regulators, industry and consumers and has urged the European Community to a zero waste economy by 2025. The article deals with the chemical composition of the main parts of grapes which depend on a number of factors, such as variety, climatic conditions of the year, vine and wine making practices, condition of the grapes, their maturity, etc. There have been presented physico-chemical characteristics of the wastes obtained from the grapes processing such as: bunches, grape pomaces, piquette and diffusion juice, seeds, wine yeast, tirighia and vinasse. Thus, by making use of wine wastes, a number of valuable products can be obtained that can be used for different purposes.

Published

2021

49. Growth response of Saccharomyces cerevisiae strains to stressors associated to the vine cycle

Author

Magalí Lucía González, Eva Valero, Selva Valeria Chimeno, Antonio Garrido-Fernández, Francisco Rodríguez-Gómez, María Cecilia Rojo, Marcos Paolinelli, Francisco Noé Arroyo-López, Mariana Combina, Laura Analía Mercado, and Instituto Nacional de Tecnología Agropecuaria (Argentina)

Subjects

Wine yeasts, Microsatélites, Identification, Identificación, Saccharomyces cerevisiae, Vid, Levadura, Grapevines, Vineyard niches acclimatization, Yeasts, Grapevine annual growth cycle, Microsatellites, Physiological variation, Food Science

Abstract

11 Páginas.-- 4 Tablas.-- 5 Figuras, Saccharomyces cerevisiae isolates from grapes, soil, vine bark and buds collected at seven phenological stages of an annual growth cycle, were molecular typed by Microsatellite Multiplex PCR. Subsequently 30 S. cerevisiae genotypes were selected and the effect of vineyard environmental stressors, in both sublethal upper and lower levels, on their growth parameters was evaluated. The effect of low and high temperature (7–40 °C), pH (2.5–8.0), glucose concentration (3.0–300.0 g/L), nitrogen concentration (0.008–8.0 g/L), and copper presence (24 mg/L) were modelled individually using the reparametrized Gompertz equation. Multivariate ANOVA and Generalized Procrustes Analysis were used to determine the environmental stressor's influence over the lag phase (λ) and the maximum specific growth rate (μmax). Both parameters were significantly affected by the S. cerevisiae genotype, the treatments, and the interaction between them. Despite a generalized reduction in μmax and a variable answer in λ, the 30 S. cerevisiae genotypes were able to overcome all the treatments. Extreme glucose limitation, copper presence and low temperature had the highest impact over the growth parameters. Interestingly, ten genotypes mostly distributed in the vineyard were the least affected, suggesting a greater acclimatization fitness and the possibility to persist in the changing conditions of the vine annual cycle., This work was supported by Instituto Nacional de Tecnología Agropecuaria (INTA) [PNAIyAV 1130044], [PE I114] and Agencia Nacional de Promoción Científica y Tecnológica [PICT-O COVIAR 2017–0108 and PICT-StartUp2018-0217]. M.L.G. was awarded with a PhD fellowship from Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET) and SEGIB -FC (Secretaría General Iberoamericana y Fundación Carolina). MP is fellow from Agencia Nacional de Promoción de la Investigación, el Desarrollo tecnológico y la Innovación, Ministerio de Ciencia, Tecnología e Innovación, Argentina. Thanks to Mss. Virginia Martín Arranz (IG-CSIC) for her technical assistance.

Published

2022

50. Wine yeasts identification by MALDI-TOF MS: Optimization of the preanalytical steps and development of an extensible open-source platform for processing and analysis of an in-house MS database.

Author

Gutiérrez, Cristina, Gómez-Flechoso, M. Ángeles, Belda, Ignacio, Ruiz, Javier, Kayali, Nour, Polo, Luis, and Santos, Antonio

Subjects

*WINE microbiology, *YEAST, *MATRIX-assisted laser desorption-ionization, *MICROBIAL diversity, *GENETIC polymorphisms

Abstract

Saccharomyces cerevisiae is the most important yeast species for the production of wine and other beverages. In addition, nowadays, researchers and winemakers are aware of the influence of non- Saccharomyces in wine aroma complexity. Due to the high microbial diversity associated to several agro-food processes, such as winemaking, developing fast and accurate methods for microbial identification is demanded. In this context, MALDI-TOF MS mass fingerprint provides reliable tool for fast biotyping and classification of microorganisms. However, there is no versatile and standardized method for fungi currently available. In this study, an optimized sample preparation protocol was devised for the biotyping of yeasts of oenological origin. Taking into account that commercially available reference databases comprise almost exclusively clinical microorganisms, most of them bacteria, in the present study a database of yeasts isolated from vineyards and wineries was created, and its accuracy was tested using industrial and laboratory yeast strains. In addition, the implementation of a program for MALDI-TOF MS spectra analysis has been developed as an extensible open-source platform for MALDI data processing and analysis with statistical techniques that has arisen from our previous experience working with MALDI data. The software integrates two R packages for raw MALDI data preprocessing: Continuous Wavelet Transform (CWT)-based algorithm and MassSpecWavelet. One of the advantages of the CWT is that it can be directly applied to a raw spectrum, without prior baseline correction. Mass fingerprints of 109 S. cerevisiae strains and 107 non- Saccharomyces isolates were generated by MALDI-TOF MS upon optimized sample preparation and instrument settings and analyzed for strain, species, and genus-level differentiation. As a reference method, for S. cerevisiae differentiation at strain level, the analysis of the polymorphism in the inter-delta region was chosen. The data revealed that MALDI-TOF MS can be used for the rapid and accurate identification of S. cerevisiae and non- Saccharomyces isolates at genus and species level. However, S. cerevisiae differentiation at strain level was not successfully achieved, and the differentiation among Metschnikowia species was also difficult. [ABSTRACT FROM AUTHOR]

Published

2017