Correction: Avdanina, D.; Zghun A. Sherry Wines: Worldwide Production, Chemical Composition and Screening Conception for Flor Yeasts. Fermentation 2022, 8, 381
Group of Fungal Genetic Engineering, Federal Research Center “Fundamentals of Biotechnology” of the Russian Academy of Sciences, Leninsky Prosp. 33-2, 119071 Moscow, Russia
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Authors to whom correspondence should be addressed.
Fermentation 2023, 9(2), 88; https://doi.org/10.3390/fermentation9020088
Submission received: 6 January 2023
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Accepted: 10 January 2023
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Published: 20 January 2023
(This article belongs to the Section Microbial Metabolism, Physiology & Genetics)
The authors wish to make the following corrections to this paper [1].
In the Sections 1. Introduction and 2. Worldwide Production of Sherry and Sherry-like Wines, 3.2. Production of Oloroso Sherry Wines, 4. Chemical Compounds Characteristic to Sherry Wines, 5.1. Genetic Markers of Flor Yeast, 5.2. Oenological Markers of Flor Yeast, 6. Stress Resistance and Adhesive Characteristics for Screening S. cerevisiae Strains as well as in Table 1, there are some technical errors in regard to the references which occurred through our fault during the technically incorrect docking of the Mendeley reference manager software.
Also, in Section 5. Genetic and Oenological Markers for Screening Flor Strains of S. cerevisiae, 6. Stress Resistance and Adhesive Characteristics for Screening S. cerevisiae Strains, 7. Iron Uptake Markers for Screening S. cerevisiae Strains, and 8. Combined Approach for Screening S. cerevisiae Strains, Promising for Sherry Production, the genus and the species of S. cerevisiae should be written in italics.
Also, in Section entitled References it’s important to insert the reference [18].
The correct version is as follows.
In the 1. Introduction Section, the references should be: “The ability of sherry yeast to work under conditions of high alcohol content is their adaptive mechanism, which affects the oenological characteristics [16,17]”.
In the 2. Worldwide Production of Sherry and Sherry-like Wines Section, the references should be as follows: in addition to Spain, Denominación de Origen (DO) sherry wines have been registered in the European Union in Italy (Sardinia), France (Jura), and Hungary (Tokay Hegyalja) under the brands Vernaccia di Oristano [18], Vin Jaune [19], and Szamorodni [20], respectively (Figure 1, Table 1). To make these, winemakers use local white grape varieties Vernaccia and Savagnin in Italy and France, as well as Furmint, Harslevelű, and Sárga Muskotály varieties in Hungary. DO sherry wines are produced according to the classical flor technology with biofilm formation [21].
A number of other countries use flor technology as well as submerged fermentation and sherry wine aging technology for sherry-like wine (SLW) production (Figure 1, Table 1). Australia, Southern Africa, and Cyprus produce SLWs of different kinds, both in barrels and using New World winemaking techniques [23]. In the USA (California), a huge range of SLWs are produced, from dry to liqueurs and sweet, both by the film-forming method with flor yeasts and by the “backing” method in steel tanks with a special temperature regime, without yeast [8,23]. Popular in the UK, the SLW Harveys is made from imported must from traditional Spanish grape varieties [24]. A variety of SLWs with the common name Ialoveni are produced in Moldova, using the grape varieties Muscat de Ialoveni, Aligote, Traminer, White Pinot, and Rkatsiteli [32,34–36]. In Ukraine, in the Odessa region, SLW is produced under the name Shabo using the Muscat Ottonel grape variety [23,31]. A lot of SLWs are produced in Yalta, such as Xeres Oreanda (from grape varieties Aligote, Albillo, Kokur) [28], Xeres Massandra (from grape varieties Sersial, Verdelho, Albillo) [29], and Xeres Magarach Massandra (from grape varieties Aligote, Sauvignon, Rkatsiteli) [31]. In Russia, SLW is produced in Krasnodar Krai (under the name Xeres Tamanskii from the Sauvignon Blanc grape variety) [25], in Rostov-on-Don (under the name Xeres Krepki Donskoi from the Aligote, Plavai, and Riesling grape varieties) [26], and in the Republic of Dadestan (under the name Xeres Dagestanskii from grape varieties Rkatsiteli, Narma, Gulyabi, Khatmi, and Ag-izym) [27]. In Armenia, strong white vintage SLW is produced in the regions of Ashtarak, Shaumyan, and Echmiadzin from the local grape varieties Voskeat and Chilar [33].
Also, ”Tokay Hegyal” should be replaced by ”Tokay Hegyalja”.
In Table 1 the references should be as follows.
Table 1.
Major sherry and sherry-like wine production worldwide and their analytical characteristics.
Table 1.
Major sherry and sherry-like wine production worldwide and their analytical characteristics.
| Country | Region/City | Brand | Alcohol, % | Sugar, g/L | Type | Grape Varieties | References |
|---|---|---|---|---|---|---|---|
| Spain | Andalusia (Jerez de la Frontera, El Puerto de Santa María, Sanlúcar de Barrameda) | Fino | 15 | 0–5 | Dry (Vinos Generosos) | Palomino | [6,22] |
| Manzanilla | 15 | ||||||
| Amontillado | 16–22 | ||||||
| Oloroso | 17–22 | ||||||
| Palo Cortado | 17–22 | ||||||
| Dry | 15–22 | 5–45 | Sweet (Vinos Generosos de Licor) | Mix of Palomino, Pedro Ximénez, Moscatel de Alejandria | |||
| Medium | 15.5–22 | 5–115 | |||||
| Pale Cream | 15.5–22 | 45–115 | |||||
| Cream | 15.5–22 | 115–140 | |||||
| Moscatel | 15–22 | 160+ | Natural Sweet (Vinos Dulces Naturales) | Moscatel de Alejandria | |||
| Dulce | 15–22 | 160+ | Pedro Ximénez | ||||
| Pedro Ximénez | 15–22 | 212+ | |||||
| Italy | Sardinia | Vernaccia di Oristano Bianco | 15 | N/D 1 | Dry | Vernaccia di Oristano | [18,22] |
| Vernaccia di Oristano Superiore | 15.5+ | ||||||
| Vernaccia di Oristano Riserva | 15.5+ | ||||||
| Vernaccia di Oristano Liquoroso | 16.5+ | Sweet | |||||
| France | Jura | Vin Jaune | 14 | 0.4 | Dry | Savagnin | [19] |
| Hungary | Tokaj-Hegyalja | Tokaji Szamorodni | 13.5 | 9 | Dry | Furmint, Hárslevelű, and Sárga Muskotály | [20] |
| 13.5 | 45+ | Sweet | |||||
| USA | California | Sheffield Very Dry Sherry | 17 | 0.4–1.4 | Dry | Local Grape Varieties | [10,23] |
| Sheffield Cellars Cream Sherry | 18 | 10.6 | Medium Dry | ||||
| Paul Masson Pale Dry Sherry | N/D | N/D | Dry | ||||
| Paul Masson Medium Dry Sherry | Medium Dry | ||||||
| Golden Cream Sherry | Sweet | ||||||
| Australia | McLaren Vale | Tinlins Dry Sherry-Apera | 17.5 | N/D | Dry | Local Grape Varieties | [10,23] |
| Tinlins Cream Sherry-Apera | Sweet | ||||||
| Tinlins Sweet Sherry-Apera | Sweet | ||||||
| Tinlins Muscat Sherry-Apera | N/D | Sweet | |||||
| Africa | South Africa | Old Brown Sherry | N/D | N/D | Dry | Local Grape Varieties | [10,23] |
| Cream Sherry | Medium Sweet | ||||||
| Cyprus | Cyprus | Emva Cream Sweet Sherry | 15 | N/D | Sweet | Local Grape Varieties | [23] |
| Emva Medium Dry Sherry | 17.5 | Medium Dry | |||||
| UK | Bristol | Harveys Fino | 15 | 0 | Dry | Palomino | [24] |
| Harveys Fine Old Amontillado | 19 | 5 | |||||
| Harveys Palo Cortado | 19 | 19 | Palomino, Pedro Ximénez | ||||
| Harveys Medium Dry | 17.5 | 38 | Medium Sweet | ||||
| Harveys Rich Old Olorosso | 20 | 53 | Sweet | ||||
| Signature by Harveys | 19 | 120 | Sweet | ||||
| Harveys Bristol Cream | 17.5 | 135 | Sweet | ||||
| Harveys Pedro Ximénez | 16 | 440 | Sweet | Pedro Ximénez | |||
| Russia | Krasnodar Krai (stanitsa Golubitskaya) | Xeres Tamanskii | 20 | 30 | Medium Sweet | Sauvignon Blanc | [25] |
| Rostov-on-Don | Xeres Krepki Donskoi | 19 | 3 | Dry | Aligote, Plavai, and Riesling | [26] | |
| Republic of Dagestan (Derbent) | Xeres Dagestanskii | 19 | 30 | Medium Sweet | Rkatsiteli, Narma, Gulyabi, Khatmi, Ag-izym | [27] | |
| Republic of Crimea | Yalta | Xeres Oreanda | 16 | 0 | Dry | Aligote, Albillo, Kokur | [28] |
| Xeres Massandra | 19.5 | 25 | Medium Sweet | Sersial, Verdelho, Albillo | [29] | ||
| Xeres Magarach | Aligote, Sauvignon, Rkatsiteli | [30] | |||||
| Ukraine | Odessa | Shabo Reserve Sherry Dessert | N/D | N/D | Medium Sweet | Muscat Ottonel | [23,31] |
| Moldova | Ialoveni | Ialoveni Sec Reserva | 16 | 0–5 | Dry | Muscat de Ialoveni, Aligote, Traminer, White Pinot, Rkatsiteli | [32] |
| Ialoveni Armonios Reserva | 18 | 15 | Medium Dry | ||||
| Ialoveni Tare Reserva | 20 | 30 | Medium Sweet | ||||
| Ialoveni Desert Reserva | 19 | 90 | Sweet | ||||
| Armenia | Ashtarak, Shaumyan, Echmiadzin | Ashtarak | 20 | 30 | Medium Sweet | Voskeat, Chilar | [33] |
1 N/D—No data.
In Section 3.2. Production of Oloroso Sherry Wines, the references should be as follows: The Oloroso brand includes dry sherry wines obtained by oxidative aging. For the production of the base wine, which is subsequently turned into a finished Oloroso, the must of the second extraction is used (Table 2, Figure 2). Unlike Fino, Oloroso sherry fortifies up to 17–22% (v/v ethanol) [23,38,51].
In Section 4. Chemical Compounds Characteristic to Sherry Wines, the references should be as follows: in the sentence «It has been shown that the content of the trans form decreases with age [59,60]».
In Section 5. Genetic and Oenological Markers for Screening Flor Strains of S. cerevisiae, the genus and the species of S. cerevisiae should be written in italics.
In Section 5.1. Genetic Markers of Flor Yeast, the references should be as follows: One of the rapid approaches for screening natural isolates for flor yeast is based on genotyping for the ITS marker. For this purpose, restriction fragment length polymorphism (RFLP) of the amplified ITS1 region is used with selected characterizing restriction enzymes such as HaeIII [17,41,81] or CfoI and HinfI [74,81]. As a result, the yeast is sorted into “wine” and “flor” strains. To divide flor yeast races into “Spanish” (deletion of 24 bp in the ITS1 region) and “French” (insertion “C” in the same fragment) [74], PCR fragments with ITS1 are treated with HhaI restriction enzyme [16].
However, the use of only the ITS region as a marker for determining the “flor” strain is insufficient; therefore, at present, the range of selective markers has expanded significantly [17,41,82]. Currently, the FLO11 promoter polymorphism region is also used as a screening marker for sherry strains. For example, a primer pair is used that anneals up- and downstream of the heterogeneous region of this promoter. As a result, a 111 bp truncated product is amplified from flor strains (due to the [-1313]–[-1203] deletion) [75].
Additionally, polymorphisms of the YDR379C-A gene, which encodes the SDH6 subunit of mitochondrial succinate dehydrogenase [83], are effective selective markers of flor strains [17,41]. This amplifies the region, 885 bp long; polymorphism is determined after treatment with restriction enzyme AflIII, which has one restriction site in sherry yeast sequences (with the formation of characteristic fragments, 450 bp and 350 bp long) and no restriction sites in wine yeast sequences (when treated with this restriction enzyme, the fragment size does not change) [17]. Thus, for the primary screening of candidate sherry strains, a combination of markers ITS1+YDR379C-A, or ITS1+FLO11, or ITS1+YDR379C-A+FLO11 can be used [17].
In the Section 5.2. Oenological Markers of Flor Yeast, the references should be as follows: in the sentence “Exceeding the threshold allowable hydrogen sulfide concentration of 50–80 g/L [87] can adversely affect the taste of wine [88]”; and in the sentence “Thus, in one of the works, yeast isolates, selected by genetic markers as “sherry” and showing high oenological indicators on fermented must with an ethanol concentration of 12.5–13.1%, after transferring the film formed by them to wine material with an ethanol concentration of 16%, all died [17]”.
In Section 6. Stress Resistance and Adhesive Characteristics for Screening S. cerevisiae Strains, the genus and the species of S. cerevisiae should be written in italics.
The references should be as follows: in the sentence “Another promising screening criterion for the selection of flor yeasts is their unique ability for adhesion and response to stress since it is known that during the period of alcoholic fermentation, yeast cells are subjected to various stress factors such as osmotic stress, oxidative stress induced by pro-oxidants such as hydrogen peroxide, high concentration of ethanol, starvation when the supply of nutrients in the environment is depleted, and others [47,99,100]; and in the sentence “At the first stage, genetic screening is carried out [17]”.
In Section 7. Iron Uptake Markers for Screening S. cerevisiae Strains, the genus and the species of S. cerevisiae should be written in italics.
In Section 8. Combined Approach for Screening S. cerevisiae Strains, Promising for Sherry Production, the genus and the species of S. cerevisiae should be written in italics.
In the Section entitled References it’s important to insert: 18. italianwinecentral.com. Available online: https://italianwinecentral.com/denomination/vernaccia-di-oristano-doc/ (accessed on 1 June 2022).
Reference
- Avdanina, D.; Zghun, A. Sherry Wines: Worldwide Production, Chemical Composition and Screening Conception for Flor Yeasts. Fermentation 2022, 8, 381. [Google Scholar] [CrossRef]
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Avdanina, D.; Zghun, A. Correction: Avdanina, D.; Zghun A. Sherry Wines: Worldwide Production, Chemical Composition and Screening Conception for Flor Yeasts. Fermentation 2022, 8, 381. Fermentation 2023, 9, 88. https://doi.org/10.3390/fermentation9020088
AMA Style
Avdanina D, Zghun A. Correction: Avdanina, D.; Zghun A. Sherry Wines: Worldwide Production, Chemical Composition and Screening Conception for Flor Yeasts. Fermentation 2022, 8, 381. Fermentation. 2023; 9(2):88. https://doi.org/10.3390/fermentation9020088
Chicago/Turabian StyleAvdanina, Daria, and Alexander Zghun. 2023. "Correction: Avdanina, D.; Zghun A. Sherry Wines: Worldwide Production, Chemical Composition and Screening Conception for Flor Yeasts. Fermentation 2022, 8, 381" Fermentation 9, no. 2: 88. https://doi.org/10.3390/fermentation9020088
APA StyleAvdanina, D., & Zghun, A. (2023). Correction: Avdanina, D.; Zghun A. Sherry Wines: Worldwide Production, Chemical Composition and Screening Conception for Flor Yeasts. Fermentation 2022, 8, 381. Fermentation, 9(2), 88. https://doi.org/10.3390/fermentation9020088
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