NMR metabolic fingerprinting and chemometrics driven authentication of Greek grape marc spirits.

NMR metabolomics was used to investigate 57 Greek spirits of four indigenous and four international varieties from Macedonia (tsipouro) and Crete (tsikoudia) to establish their authenticity. The metabolic profile of Romeiko, Malvasia, Xinomavro, Sangiovese and Nebbiolo varieties was assessed for the first time. The WET1D sequence was used to improve sensitivity and unveil minor metabolites. PCA was applied to delineate the provenance of samples and associate metabolites with distinct varietal characteristics, such as the acidity of Sangiovese, the overripe grapes harvesting of Romeiko, the intense body of Cabernet Sauvignon, the light body of Xinomavro and the glutamic acid for Malvasia. The migration of Cabernet Sauvignon from north Greece to Crete was framed. Monitoring multi-varietal spirits introduced 2-vinylethanol as a marker for yeast selection. OPLS-DA was applied to samples from the same vineyard, thus highlighting genotypic markers. Consequently, the findings address the concepts of typicity and traceability in grape marc spirits.

[1]  P. Pieri,et al.  Microclimate influence on mineral and metabolic profiles of grape berries. , 2006, Journal of agricultural and food chemistry.

[2]  A. Lante,et al.  A Study on the Relationship Between the Volatile Composition of Moscato and Prosecco Grappa and Enzymatic Activities Involved in its Production , 2008 .

[3]  Patrick Giraudeau,et al.  Optimizing water suppression for quantitative NMR-based metabolomics: a tutorial review , 2015, Metabolomics.

[4]  Steve L. Taylor,et al.  Advances in Food and Nutrition Research , 2003 .

[5]  Panagiotis Zoumpoulakis,et al.  NMR metabolite profiling of Greek grape marc spirits. , 2013, Food chemistry.

[6]  Manfred Spraul,et al.  Targeted and nontargeted wine analysis by (1)h NMR spectroscopy combined with multivariate statistical analysis. Differentiation of important parameters: grape variety, geographical origin, year of vintage. , 2013, Journal of agricultural and food chemistry.

[7]  G. Hwang,et al.  Characterization of wines from grape varieties through multivariate statistical analysis of 1H NMR spectroscopic data , 2009 .

[8]  Laura Ruth Cagliani,et al.  Evaluation of saffron (Crocus sativus L.) adulteration with plant adulterants by (1)H NMR metabolite fingerprinting. , 2015, Food chemistry.

[9]  Johan Trygg,et al.  Chemometrics in metabonomics. , 2007, Journal of proteome research.

[10]  G. Hwang,et al.  Metabolomics reveals alterations in both primary and secondary metabolites by wine bacteria. , 2009, Journal of agricultural and food chemistry.

[11]  P. Demertzis,et al.  Differences in concentration of principal volatile constituents in traditional Greek distillates , 2005 .

[12]  S. D. De Pascali,et al.  Viticultural practice and winemaking effects on metabolic profile of Negroamaro. , 2014, Food chemistry.

[13]  M. Spraul,et al.  Application of automated eightfold suppression of water and ethanol signals in 1H NMR to provide sensitivity for analyzing alcoholic beverages , 2011, Magnetic resonance in chemistry : MRC.

[14]  L. Eriksson Multi- and megavariate data analysis , 2006 .

[15]  Paolo Oliveri,et al.  Multivariate class modeling for the verification of food-authenticity claims , 2012 .

[16]  L. Farina,et al.  The plasticity of the grapevine berry transcriptome , 2013, Genome Biology.

[17]  Eun-Young Kim,et al.  (1)H NMR-based metabolomic approach for understanding the fermentation behaviors of wine yeast strains. , 2009, Analytical chemistry.

[18]  C. Fotakis,et al.  NMR metabolite fingerprinting in grape derived products: An overview , 2013 .

[19]  F. V. D. van den Berg,et al.  1H nuclear magnetic resonance-based metabolomic characterization of wines by grape varieties and production areas. , 2008, Journal of agricultural and food chemistry.

[20]  M. Moreno-Arribas,et al.  Wine chemistry and biochemistry , 2009 .

[21]  Giulia Papotti,et al.  Application of one- and two-dimensional NMR spectroscopy for the characterization of Protected Designation of Origin Lambrusco wines of Modena. , 2013, Journal of agricultural and food chemistry.

[22]  N. P. Guerra,et al.  Solid-state fermentation of red raspberry (Rubus ideaus L.) and arbutus berry (Arbutus unedo, L.) and characterization of their distillates , 2011 .

[23]  Douglas B. Kell,et al.  Proposed minimum reporting standards for data analysis in metabolomics , 2007, Metabolomics.