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3. Alcoholes alternativos para la fortificación: impacto en el velo de flor y perfil sensorial de vinos finos de la DO Jerez-Xérés-Sherry.

Author

Florido-Barba, Antonio, Cordero-Bueso, Gustavo, and Manuel Cantoral, Jesús

Subjects
LEGISLATIVE auditing, ALCOHOL content of beer, GRADUATION (Education), NEUROPLASTICITY, AGING
Abstract

Copyright of Enólogos is the property of Periodistas Asociados de Ciudad Real SL 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

6. Non- Saccharomyces Are Also Forming the Veil of Flor in Sherry Wines.

Author

Ruiz-Muñoz, Marina, Hernández-Fernández, María, Cordero-Bueso, Gustavo, Martínez-Verdugo, Sergio, Pérez, Fernando, and Cantoral, Jesús Manuel

Subjects
SHERRY, SACCHAROMYCES, EXTRACELLULAR enzymes, SACCHAROMYCES cerevisiae, PICHIA
Abstract

Biological ageing is an essential process for obtaining some distinctive Sherry wines, such as Fino and Manzanilla. It occurs after the fermentation of the grape must due to the appearance of a biofilm on the surface of the wine called "veil of flor". Yeasts belonging to the Saccharomyces cerevisiae species mainly comprise such biofilm. Although other species have also been found, these have been traditionally considered spoilage. Indeed, it has even been hypothesised that they may not be able to form biofilm on their own under such conditions. In the present work, four different non-Saccharomyces yeasts isolated from barrels in the Jerez area under biological ageing have been characterised through their physiological abilities, including extracellular enzymatic and biofilm-forming capabilities. Results showed not only a surprising ethanol tolerance, above 15.5% in all cases, but also a significant degree of extracellular enzyme production, highlighting the urease and proteolytic activities found in Pichia manshurica, as well as lipolytic activity in Pichia kudriavzevii, Pichia membranifaciens and Wicherhamomyces anomalus. As a conclusion, these non-Saccharomyces could be very interesting in the oenological field, beyond improving the organoleptic characteristics as well as technological features in these wines. [ABSTRACT FROM AUTHOR]

Published
2022
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7. Improving an Industrial Sherry Base Wine by Yeast Enhancement Strategies.

Author

Ruiz-Muñoz, Marina, Cordero-Bueso, Gustavo, Izquierdo-Cañas, Pedro Miguel, Mena-Morales, Adela, and Cantoral, Jesús M.

Subjects
SHERRY, YEAST, FERMENTATION products industry, HYDROGEN sulfide, GENETIC variation
Abstract

There is growing interest in yeast selection for industrial fermentation applications since it is a factor that protects a wine's identity. Although it is strenuous evaluating the oenological characteristics of yeasts in selection processes, in many cases the most riveting yeasts produce some undesirable organoleptic characteristics in wine. The aim of the present work is to improve an industrial yeast strain by reducing its hydrogen sulfide (H2S) production. To accomplish this, two different improvement approaches were used on said yeast: hybridization by mass mating and adaptive laboratory evolution, both performed through spore generation and conjugation, thus increasing genetic variability. Three evolved variants with lower H2S production were obtained and used as starters to carry out fermentation at an industrial level. Wine quality was analyzed by its principal oenological parameters and volatile aroma compounds, which were both corroborated by sensory evaluations. Significant differences between the produced wines have been obtained and a substantial improvement in aromatic quality has been achieved. Both hybrids were the most different to the control due to terpenes and esters production, while the evolved strain was very similar to the parental strain. Not only have organoleptic defects been reduced at an industrial level, more floral and fruitier wines have been produced. [ABSTRACT FROM AUTHOR]

Published
2022
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8. Culturable Yeast Diversity of Grape Berries from Vitis vinifera ssp. sylvestris (Gmelin) Hegi.

Author

Cordero-Bueso, Gustavo, Vigentini, Ileana, Foschino, Roberto, Maghradze, David, Ruiz-Muñoz, Marina, Benitez-Trujillo, Francisco, and Cantoral, Jesús M.

Subjects
VITIS vinifera, YEAST, ENDANGERED species, BERRIES, CLIMATE change, SACCHAROMYCES cerevisiae, GRAPES
Abstract

Vitis vinifera L. ssp. sylvestris (Gmelin) Hegi is recognized as the dioecious parental generation of today's cultivars. Climatic change and the arrival of pathogens and pests in Europe led it to be included on the International Union for Conservation of Nature (IUCN) Red List of Threatened Species in 1997. The present work focused on the study of culturable yeast occurrence and diversity of grape berries collected from wild vines. Sampling was performed in 29 locations of Azerbaijan, Georgia, Italy, Romania, and Spain. In total, 3431 yeast colonies were isolated and identified as belonging to 49 species, including Saccharomyces cerevisiae, by 26S rDNA D1/D2 domains and ITS region sequencing. Isolates of S. cerevisiae were also analyzed by SSR–PCR obtaining 185 different genotypes. Classical ecology indices were used to obtain the richness (S), the biodiversity (H'), and the dominance (D) of the species studied. This study highlights the biodiversity potential of natural environments that still represent a fascinating source of solutions to common problems in winemaking. [ABSTRACT FROM AUTHOR]

Published
2022
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9. Microbial Diversity and Safety in Fermented Beverages.

Author

Chaves-López, Clemencia and Cordero-Bueso, Gustavo

Subjects
FERMENTED beverages, MICROBIAL diversity, FERMENTED foods, SAFETY, ITALIAN wines, BEVERAGE packaging, VINTNERS
Abstract

In this sense, food and fermented beverage safety is a systemic approach to hygiene and accountability that concerns every aspect of the global food and beverages industry. The vast majority of fermented beverages is in practice similar to winemaking, but beer, cider and other similar beverages typically contain much lower ethanol levels (around 5-7%) compared to wine (11-15%). After a microbiological analysis of the native yeast population and chemically studying the wine composition, their results showed that I L. thermotolerans i Lt93 was unable to overgrow wild yeast population in "Treixadura" white must. [Extracted from the article]

Published
2022
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10. Co-Existence of Inoculated Yeast and Lactic Acid Bacteria and Their Impact on the Aroma Profile and Sensory Traits of Tempranillo Red Wine.

Author

Izquierdo-Cañas, Pedro Miguel, Ríos-Carrasco, María, García-Romero, Esteban, Mena-Morales, Adela, Heras-Manso, José María, and Cordero-Bueso, Gustavo

Subjects
LACTIC acid bacteria, RED wines, QUADRUPOLE mass analyzers, SACCHAROMYCES cerevisiae, FERMENTATION, ODORS, YEAST
Abstract

This study investigates the effects of simultaneous inoculation of a selected Saccharomyces cerevisiae yeast strain with two different commercial strains of wine bacteria Oenococcus oeni at the beginning of the alcoholic fermentation on the kinetics of malolactic fermentation (MLF), wine chemical composition, and organoleptic characteristics in comparison with spontaneous MLF in Tempranillo grape must from Castilla-La Mancha (Spain). Evolution of MLF was assessed by the periodic analysis of L-malic acid through the enzymatic method, and most common physiochemical parameters and sensory traits were evaluated using a standardized sensory analysis. The samples were analyzed by GC/MS in SCAN mode using a Trace GC gas chromatograph and a DSQII quadrupole mass analyzer. Co-inoculation reduced the overall fermentation time by up to 2 weeks leading to a lower increase in volatile acidity. The fermentation-derived wine volatiles profile was distinct between the co-inoculated wines and spontaneous MLF and was influenced by the selected wine bacteria used in co-inoculation. Co-inoculation allows MLF to develop under reductive conditions and results in wines with very few lactic and buttery flavors, which is related to the impact of specific compounds like 2,3-butanedione. This compound has been also confirmed as being dependent on the wine bacteria used. [ABSTRACT FROM AUTHOR]

Published
2020
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11. Bacteriophages as an Up-and-Coming Alternative to the Use of Sulfur Dioxide in Winemaking.

Author

Cordero-Bueso, Gustavo, Moraga, Javier, Ríos-Carrasco, María, Ruiz-Muñoz, Marina, and Cantoral, Jesús Manuel

Subjects
ACETOBACTER, LACTIC acid bacteria, BACTERIOPHAGES, SULFUR dioxide, GRAPE varieties, VITIS vinifera, LACTOBACILLUS plantarum, BERRIES
Abstract

Certain acetic and lactic acid bacteria are major causes of quality defects in musts and wines, giving rise to defects such as a "vinegary," "sharp, like nail polish-remover" taste or preventing alcoholic and/or malolactic fermentation. Sulfur dioxide is the major tool currently used in the control of these bacteria in wine. The aim of this work was to isolate bacteriophages from musts and wine of different grape varieties that were able to eliminate lactic and acetic acid bacteria spoilages at the laboratory scale. Musts obtained from grape-berries of Vitis vinifera cv. Chardonnay and Moscatel and a red wine made with V. vinifera cv. Tintilla de Rota were used to isolate bacteriophages. Bacteriophages were obtained from each of the musts and the wine and belonged to the order Caudovirals and the family Tectivirals. They were isolated by classical virology methods and identified by electron microscopy. The host bacteria used in the study were lactic acid bacteria of the species Lactobacillus hilgardii , Lactobacillus plantarum , and Oenococcus oeni and the acetic bacteria Acetobacter aceti. A comparative study was performed by adding phage titrations and SO2 to musts and wines, which had been previously inoculated with bacteria, to study the effectiveness of bacteriophages against bacteria. The comparative study showed that some bacteriophages were as effective as sulfur dioxide at low concentrations. [ABSTRACT FROM AUTHOR]

Published
2020
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13. The Microbial Diversity of Sherry Wines.

Author

Cordero-Bueso, Gustavo, Ruiz-Muñoz, Marina, González-Moreno, Mónica, Chirino, Salvador, del Carmen Bernal-Grande, María, and Cantoral, Jesús Manuel

Subjects
SHERRY, FERMENTATION, MICROBIAL diversity, YEAST, METABOLITES
Abstract

The principal role of wine yeast is to transform efficiently the grape-berries' sugars to ethanol, carbon dioxide, and other metabolites, without the production of off-flavors. Wine yeast strains are able to fermentmusts, while other commercial or laboratory strains fail to do so. The genetic differences that characterize wine yeast strains in contrast to the biological ageing of the veil-forming yeasts in Sherry wines are poorly understood. Saccharomyces cerevisiae strains frequently exhibit rather specific phenotypic features needed for adaptation to a special environment, like fortified wines with ethanol up to 15% (v/v), known as Sherry wines. Factors that affect the correct development of the veil of flor during ageing are also reviewed, along with the related aspects of wine composition, biofilm formation processes, and yeast autolysis. This review highlights the importance of yeast ecology and yeast metabolic reactions in determining Sherry wine quality and the wealth of untapped indigenous microorganisms co-existing with the veil-forming yeast strains. It covers the complexity of the veil forming wine yeasts' genetic features, and the genetic techniques often used in strain selection and monitoring during fermentation or biological ageing. Finally, the outlook for new insights to protect and to maintain the microbiota of the Sherry wines will be discussed. [ABSTRACT FROM AUTHOR]

Published
2018
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15. Wild Grape-Associated Yeasts as Promising Biocontrol Agents against Vitis vinifera Fungal Pathogens.

Author

Cordero-Bueso, Gustavo, Mangieri, Nicola, Maghradze, David, Foschino, Roberto, Valdetara, Federica, Cantoral, Jesús M., and Vigentini, Ileana

Subjects
YEAST, BIOLOGICAL pest control agents, VITIS vinifera
Abstract

The increasing level of hazardous residues in the environment and food chains has led the European Union to restrict the use of chemical fungicides. Thus, exploiting new natural antagonistic microorganisms against fungal diseases could serve the agricultural production to reduce pre- and post-harvest losses, to boost safer practices for workers and to protect the consumers' health. The main aim of this work was to evaluate the antagonistic potential of epiphytic yeasts against Botrytis cinerea, Aspergillus carbonarius, and Penicillium expansum pathogen species. In particular, yeast isolation was carried out from grape berries of Vitis vinifera ssp sylvestris populations, of the Eurasian area, and V. vinifera ssp vinifera cultivars from three different farming systems (organic, biodynamic, and conventional). Strains able to inhibit or slow the growth of pathogens were selected by in vitro and in vivo experiments. The most effective antagonist yeast strains were subsequently assayed for their capability to colonize the grape berries. Finally, possible modes of action, such as nutrients and space competition, iron depletion, cell wall degrading enzymes, diffusible and volatile antimicrobial compounds, and biofilm formation, were investigated as well. Two hundred and thirty-one yeast strains belonging to 26 different species were isolated; 20 of them, ascribed to eight species, showed antagonistic action against all molds. Yeasts isolated from V. vinifera ssp sylvestris were more effective (up to 50%) against B. cinerea rather than those isolated from V. vinifera ssp vinifera. Six strains, all isolated from wild vines, belonging to four species (Meyerozyma guilliermondii, Hanseniaspora uvarum, Hanseniaspora clermontiae, and Pichia kluyveri) revealed one or more phenotypical characteristics associated to the analyzed modes of antagonistic action. [ABSTRACT FROM AUTHOR]

Published
2017
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16. Rapid and not culture-dependent assay based on multiplex PCR-SSR analysis for monitoring inoculated yeast strains in industrial wine fermentations.

Author

Cordero-Bueso, Gustavo, Rodríguez, María, Garrido, Carlos, and Cantoral, Jesús

Subjects
WINE industry, WINES, FERMENTATION products industry, NUCLEIC acid isolation methods, YEAST culture, POLYMERASE chain reaction
Abstract

Wine industry needs a simple method for rapid diagnosis of the dominance of inoculated strains that could be performed routinely during the fermentation process. We present a suitable, high-throughput, and low-cost method to monitor rapidly the dominance of inoculated yeast strains in industrial fermentations of red and white wines using an activated carbon cleaning pretreatment, and a rapid DNA extraction method plus multiplex PCR-SSR analysis. We apply this technique directly to samples of fermenting wines without previously isolating yeast colonies. Results are obtained in a maximum time of 4.5 h. [ABSTRACT FROM AUTHOR]

Published
2017
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17. New Genes Involved in Osmotic Stress Tolerance in Saccharomyces cerevisiae.

Author

Gonzalez, Ramon, Morales, Pilar, Tronchoni, Jordi, Cordero-Bueso, Gustavo, Vaudano, Enrico, Quirós, Manuel, Novo, Maite, Torres-Pérez, Rafael, Valero, Eva, Jingyu Chen, Proft, Markus, and De Nadal, Eulàlia

Subjects
STRESS tolerance (Psychology), SACCHAROMYCES cerevisiae
Abstract

Adaptation to changes in osmolarity is fundamental for the survival of living cells, and has implications in food and industrial biotechnology. It has been extensively studied in the yeast Saccharomyces cerevisiae, where the Hog1 stress activated protein kinase was discovered about 20 years ago. Hog1 is the core of the intracellular signaling pathway that governs the adaptive response to osmotic stress in this species. The main endpoint of this program is synthesis and intracellular retention of glycerol, as a compatible osmolyte. Despite many details of the signaling pathways and yeast responses to osmotic challenges have already been described, genome-wide approaches are contributing to refine our knowledge of yeast adaptation to hypertonic media. In this work, we used a quantitative fitness analysis approach in order to deepen our understanding of the interplay between yeast cells and the osmotic environment. Genetic requirements for proper growth under osmotic stress showed both common and specific features when hypertonic conditions were induced by either glucose or sorbitol. Tolerance to high-glucose content requires mitochondrial function, while defective protein targeting to peroxisome, GID-complex function (involved in negative regulation of gluconeogenesis), or chromatin dynamics, result in poor survival to sorbitolinduced osmotic stress. On the other side, the competitive disadvantage of yeast strains defective in the endomembrane system is relieved by hypertonic conditions. This finding points to the Golgi-endosome system as one of the main cell components negatively affected by hyperosmolarity. Most of the biological processes highlighted in this analysis had not been previously related to osmotic stress but are probably relevant in an ecological and evolutionary context. [ABSTRACT FROM AUTHOR]

Published
2016
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18. Indigenous Georgian Wine-Associated Yeasts and Grape Cultivars to Edit the Wine Quality in a Precision Oenology Perspective.

Author

Vigentini, Ileana, Valdetara, Federica, Foschino, Roberto, Maghradze, David, Petrozziello, Maurizio, Bonello, Federica, Mezzapelle, Vito, Failla, Osvaldo, Capece, Angela, and Cordero-Bueso, Gustavo

Subjects
FERMENTATION, MICROBIAL diversity
Abstract

In Georgia, one of the most ancient vine-growing environment, the homemade production of wine is still very popular in every rural family and spontaneous fermentation of must, without addition of chemical preservatives, is the norm. The present work investigated the yeast biodiversity in five Georgian areas (Guria, Imereti, Kakheti, Kartli, Ratcha-Lechkhumi) sampling grapes and wines from 22 different native cultivars, in 26 vineyards and 19 family cellars. One hundred and eighty-two isolates were ascribed to 15 different species by PCR-ITS and RFLP, and partial sequencing of D1/D2 domain 26S rDNA gene. Metschnikowia pulcherrima (F' =0.56, I' = 0.32), Hanseniaspora guilliermondii (F' = 0.49, I' = 0.27), and Cryptococcus flavescens (F' = 0.31, I' = 0.11) were the dominant yeasts found on grapes, whereas Saccharomyces cerevisiae showed the highest prevalence into wine samples. Seventy four isolates with fermentative potential were screened for oenological traits such as ethanol production, resistance to SO2, and acetic acid, glycerol and H2S production. Three yeast strains (Kluyveromyces marxianus UMY207, S. cerevisiae UMY255, Torulaspora delbrueckii UMY196) were selected and separately inoculated in vinifications experiments at a Georgian cellar. Musts were prepared from healthy grapes of local varieties, Goruli Mtsvane (white berry cultivar) and Saperavi (black berry cultivar). Physical (Brix) and microbial analyses (plate counts) were performed to monitor the fermentative process. The isolation of indigenous S. cerevisiae yeasts beyond the inoculated strains indicated that a co-presence occurred during the vinification tests. Results from quantitative GC-FID analysis of volatile compounds revealed that the highest amount of fermentation flavors, such as 4-ethoxy-4-oxobutanoic acid (monoethyl succinate), 2-methylpropan-1-ol, ethyl 2-hydroxypropanoate, and 2-phenylethanol, were significantly more produced in fermentation conducted in Saperavi variety inoculated with K. marxianus, whereas other aromatic compounds like 3-methylbutyl acetate, ethyl hexanoate and dihydrofuran-2(3H)-one (γ- butyrolactone) showed a higher content in Goruli Mtsvane variety samples fermented by S. cerevisiae. The selected yeast strains have proved to be promising for enhancing the flavor potential in low aromatic Georgian cultivars. This work intends to be a knowledge contribution for a precision oenology toward the strategic concept of "one grape variety-one yeast". [ABSTRACT FROM AUTHOR]

Published
2016
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20. Novel wine yeast with mutations in YAP1 that produce less acetic acid during fermentation.

Author

Cordente, Antonio G., Cordero-Bueso, Gustavo, Pretorius, Isak S., and Curtin, Christopher D.

Subjects
WINES, GENETIC mutation, YEAST, ACETIC acid, FERMENTATION, ANTIFUNGAL agents, TRANSCRIPTION factors, CERULENIN, MUTAGENESIS
Abstract

Acetic acid, a byproduct formed during yeast alcoholic fermentation, is the main component of volatile acidity (VA). When present in high concentrations in wine, acetic acid imparts an undesirable 'vinegary' character that results in a significant reduction in quality and sales. Previously, it has been shown that sake yeast strains resistant to the antifungal cerulenin produce significantly lower levels of VA. In this study, we used a classical mutagenesis method to isolate a series of cerulenin-resistant strains, derived from a commercial diploid wine yeast. Four of the selected strains showed a consistent low-VA production phenotype after small-scale fermentation of different white and red grape musts. Specific mutations in YAP1, a gene encoding a transcription factor required for oxidative stress tolerance, were found in three of the four low-VA strains. When integrated into the genome of a haploid wine strain, the mutated YAP1 alleles partially reproduced the low-VA production phenotype of the dip-loid cerulenin-resistant strains, suggesting that YAP1 might play a role in (reg-ulating) acetic acid production during fermentation. This study offers prospects for the development of low-VA wine yeast starter strains that could assist winemakers in their effort to consistently produce wine to definable qual-ity specifications. [ABSTRACT FROM AUTHOR]

Published
2013
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21. Biotechnological potential of non- Saccharomyces yeasts isolated during spontaneous fermentations of Malvar ( Vitis vinifera cv. L.).

Author

Cordero-Bueso, Gustavo, Esteve-Zarzoso, Braulio, Cabellos, Juan, Gil-Díaz, Mar, and Arroyo, Teresa

Subjects
FOOD biotechnology, SACCHAROMYCES, FOOD fermentation, VITIS vinifera, GRAPE varieties, FRUIT microbiology, WINES, GLUCOSIDASES
Abstract

Non- Saccharomyces yeast species assume an important role in wine flavor. Notwithstanding, the chemical basis for the flavor characteristics of wines from some grape varieties is not yet defined. The value of this work lies in the use of Malvar white grape, an autochthonous variety from Madrid (Spain) winegrowing region to conduct spontaneous fermentations. This is the first time that a comparative characterization of a wide range of non- Saccharomyces species and a comprehensive analysis of these yeast-derived volatiles has been carried out in this grape variety. β-glucosidase and pectinase (polygalacturonase) extracellular activities were tested on agar plates as primary selection criteria among the 504 non- Saccharomyces isolated from Malvar spontaneous fermentations during four consecutive harvests. Analysis of the wines obtained after fermentation using the selected yeast strains indicates that non- Saccharomyces yeasts isolated along the fermentative process seem that could have a positive impact, showing a high variability in the volatile compounds contributing to the organoleptic characteristics of Malvar wines. Torulaspora delbrueckii CLI 918 was defined as the yeast strain with potential interest for its contribution to the aromatic wine profile with flowery and fruity aromas and could be used in mixed starter cultures with Saccharomyces cerevisiae. However, Hanseniaspora guilliermondii increased the volatile acidity and ethyl acetate, but this species along with the genus Pichia and Candida seem to provide a high quantity of extracellular enzymes which may be beneficial in wine making. [ABSTRACT FROM AUTHOR]

Published
2013
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22. Novel wine yeast with mutations in YAP1 that produce less acetic acid during fermentation.

Author

Cordente, Antonio G., Cordero-Bueso, Gustavo, Pretorius, Isak S., and Curtin, Christopher D.

Subjects
ACETIC acid, GENETIC mutation, FERMENTATION, MUTAGENESIS, WASTE products, WINES, PHENOTYPES, TRANSCRIPTION factors
Abstract

Acetic acid, a byproduct formed during yeast alcoholic fermentation, is the main component of volatile acidity ( VA). When present in high concentrations in wine, acetic acid imparts an undesirable 'vinegary' character that results in a significant reduction in quality and sales. Previously, it has been shown that saké yeast strains resistant to the antifungal cerulenin produce significantly lower levels of VA. In this study, we used a classical mutagenesis method to isolate a series of cerulenin-resistant strains, derived from a commercial diploid wine yeast. Four of the selected strains showed a consistent low- VA production phenotype after small-scale fermentation of different white and red grape musts. Specific mutations in YAP1, a gene encoding a transcription factor required for oxidative stress tolerance, were found in three of the four low- VA strains. When integrated into the genome of a haploid wine strain, the mutated YAP1 alleles partially reproduced the low- VA production phenotype of the diploid cerulenin-resistant strains, suggesting that YAP1 might play a role in (regulating) acetic acid production during fermentation. This study offers prospects for the development of low- VA wine yeast starter strains that could assist winemakers in their effort to consistently produce wine to definable quality specifications. [ABSTRACT FROM AUTHOR]

Published
2013
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24. The Role of Yeasts as Biocontrol Agents for Pathogenic Fungi on Postharvest Grapes: A Review.

Author

Di Canito, Alessandra, Mateo-Vargas, María Alejandra, Mazzieri, Monica, Cantoral, Jesús, Foschino, Roberto, Cordero-Bueso, Gustavo, and Vigentini, Ileana

Subjects
PATHOGENIC fungi, TABLE grapes, YEAST, BOTRYTIS cinerea, BIOLOGICAL pest control agents, HUMAN ecology, GRAPES
Abstract

In view of the growing concern about the impact of synthetic fungicides on human health and the environment, several government bodies have decided to ban them. As a result, a great number of studies have been carried out in recent decades with the aim of finding a biological alternative to inhibit the growth of fungal pathogens. In order to avoid the large losses of fruit and vegetables that these pathogens cause every year, the biological alternative's efficacy should be the same as that of a chemical pesticide. In this review, the main studies discussed concern Saccharomyces and non-Saccharomyces yeasts as potential antagonists against phytopathogenic fungi of the genera Penicillium and Aspergillus and the species Botrytis cinerea on table grapes, wine grapes, and raisins. [ABSTRACT FROM AUTHOR]

Published
2021
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25. Culturable Yeasts as Biofertilizers and Biopesticides for a Sustainable Agriculture: A Comprehensive Review.

Author

Hernández-Fernández, María, Cordero-Bueso, Gustavo, Ruiz-Muñoz, Marina, Cantoral, Jesús M., and Antoniou, Chrystalla

Subjects
SUSTAINABLE agriculture, YEAST, SYNTHETIC fertilizers, BIOPESTICIDES, SOIL biodiversity, PLANT nutrients, BIOLOGICAL pest control agents, BIOFERTILIZERS
Abstract

The extensive use of synthetic fertilizers and pesticides has negative consequences in terms of soil microbial biodiversity and environmental contamination. Faced with this growing concern, a proposed alternative agricultural method is the use of microorganisms as biofertilizers. Many works have been focused on bacteria, but the limited literature on yeasts and their potential ability to safely promote plant growth is gaining particular attention in recent years. Thus, the objective of this review is to highlight the application of yeasts as biological agents in different sectors of sustainable agricultural practices through direct or indirect mechanisms of action. Direct mechanisms include the ability of yeasts to provide soluble nutrients to plants, produce organic acids and phytohormones (indole-3-acetic acid). Indirect mechanisms involve the ability for yeasts to act as biocontrol agents through their high antifungal activity and lower insecticidal and herbicidal activity, and as soil bioremediating agents. They also act as protective agents against extreme environmental factors by activating defense mechanisms. It is evident that all the aspects that yeasts offer could be useful in the creation of quality biofertilizers and biopesticides. Hence, extensive research on yeasts could be promising and potentially provide an environmentally friendly solution to the increased crop production that will be required with a growing population. [ABSTRACT FROM AUTHOR]

Published
2021
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