Macrowine 2021
IVES 9 IVES Conference Series 9 Comparative proteomic analysis of wines made from Botrytis cinerea infected and healthy grapes reveal interesting parallels to the gushing phenomenon in sparkling wine

Comparative proteomic analysis of wines made from Botrytis cinerea infected and healthy grapes reveal interesting parallels to the gushing phenomenon in sparkling wine

Abstract

In addition to aroma compounds also protein composition strongly influences the quality of wines. Proteins of wine derive mainly from the plant Vitis vinifera and may be influenced by abiotic stress as well as fermentation conditions or fining. Additionally, fungal infections can affect the protein content as well by introducing fungal proteins or affecting grape protein composition. An infection of the vine with the plant pathogenic fungus Botrytis (B.) cinerea was shown to cause a degradation of proteins in the resulting wine. Moreover, it influences the foaming properties in sparkling wine. The aim of this study was to compare the protein composition of B. cinerea infected and healthy grapes as well as of wines produced from such grapes in regard to proteins which might play a potential role in the gushing phenomenon of sparkling wine. Therefore, SDS-PAGE and reversed phase HPLC (RP-HPLC) were applied to analyze the protein composition of healthy and botrytized Weißburgunder grapes and the corresponding wines. The fungal infection led to a general decrease of the protein content in infected grapes and wines suggesting a proteolytic activity of B. cinerea. Especially the concentration of a protein with a molecular mass of ~17 kDa underwent a significant reduction in wine from infected grapes as compared to wine made from healthy grapes. Amino acid sequence analysis showed that this protein derives from Vitis vinifera. Other proteins were detected via SDS-PAGE and were shown to occur in the botrytized but not in healthy wines. These unidentified proteins were assumed to be related to the fungal infection, either as induced plant proteins or as proteins produced by the pathogen. Similar results were found when the proteome of non-gushing and gushing sparkling wines were compared. The protein content in gushing sparkling wines was much lower as compared to non-gushing sparkling wines when analyzed by SDS-PAGE and RP-HPLC. Furthermore, in gushing sparkling wine proteins of fungal origin can be found, whereas plant-associated pathogenesis related proteins were enriched in the non-gushing samples. The before mentioned protein (MW: ~17 kDa) was absent or at least reduced in gushing sparkling wine samples. Hence, an infection with B. cinerea led to several proteomic changes in grapes, which were still detectable in the wine made thereof. Degradation of plant proteins and occurrence of fungal proteins were also observed in gushing sparkling wines. These parallels suggest that gushing in sparkling wine might be affected by a degradation of proteins induced by an infection with fungal pathogens.

Publication date: May 17, 2024

Issue: Macrowine 2016

Type: Poster

Authors

Ludwig Niessen*, Elisabeth Vogt, Rudi Vogel, Tobias Ziegler, Veronika Kupfer

*TU München

Contact the author

Tags

IVES Conference Series | Macrowine | Macrowine 2016

Citation

Related articles…

New molecular evidence of wine yeast-bacteria interaction unraveled by untargeted metabolomic profiling

Bacterial malolactic fermentation (MLF) has a considerable impact on wine quality. The yeast strain used for primary fermentation can consistently stimulate (MLF+ phenotype) or inhibit (MLF- phenotype) malolactic bacteria and the MLF process as a function of numerous winemaking practices, but the molecular evidence behind still remains a mystery. In this study, such evidence was elucidated by the direct comparison of extracellular metabolic profiles of MLF+ and MLF- yeast phenotypes. Untargeted metabolomics combining ultrahigh-resolution FT-ICR-MS analysis, powerful machine learning methods and a comprehensive wine metabolite database, discovered around 800 putative biomarkers and 2500 unknown masses involved in phenotypic distinction.

Maturation of Agiorgitiko (Vitis vinifera) red wine on its wine lees: Impact on its phenolic composition

Maturation of wine on lees (often referred as sur lie) is a common practice applied by many winemakers around the world. In the past this method was applied mainly on white and/or sparkling wine production but recently also to red wine production. In our experiment, we matured red wine on wine lees of two origins: a) Light wine lees, collected after the completion of the alcoholic fermentation, b) Heavy lees, collected after the completion of the malolactic fermentation. The lees were free of off-odors and were added in the red wine in percentage 3% and 8%, simulating common winemaking addition. The maturation lasted in total six months and samples were collected for analysis after one, three and six months. During storage the lees were stirred.

Micro-meteorological, compositional and transcriptional study of corvina grape color during ripening

Grape anthocyanin content and composition could affect the quality and the production strategies of red wines. Differences in the pigment composition modify the color properties in terms of hue, extractability and stability. Thus, for the production of a highly qualitative wine such as “Amarone”, variations in the pigment composition are not negligible. The aim of this work was the investigation of the anthocyanin profile changes during ripening in Corvina grapes, the main cultivar for the “Amarone” production. The experiment took place in 2015, in two vineyards located in Valpollicella (Italy).

Identification of caffeic acid as a major component of Moscatel wine protein sediment

Proteins play a significant role in the colloidal stability and clarity of white wines [1]. However, under conditions of high temperatures during storage or transportation, the proteins themselves can self-aggregate into light-dispersing particles causing the so-called protein haze [2]. Formation of these unattractive precipitates in bottled wine is a common defect of commercial wines, making them unacceptable for sale [3]. Previous studies identified the presence of phenolic compounds in the natural precipitate of white wine [4], contributing to the hypothesis that these compounds could be involved in the mechanism of protein haze formation.

The effect of cropload on the volatile aroma characteristics of ‘Beihong’ and ‘Beimei’ red wine

Beihong and Beimei were bred as winemaking cultivars released by Institute of Botany, the Chinese Academy of Sciences in 2008. The cultivars are selected from the population of ‘Muscat Hamburg’ (Vitis vinifera) ×V. amurensis. They are extended to most provinces in North of China because they have strong resistance to cold and disease and need not be buried in soil in winter. To better understand the effect of cropload on volatile compounds during wine-making, we surveyed volatiles composition and content of different cropload level in 3-years-old ‘Beihong’ and ‘Beimei’ vines which planted in east foot of Helan mountain of Ningxia (EHN).