Simultaneous separation and identification of oligomeric procyanidins and anthocyanin-derived pigments in raw red wine by HPLC-UV-ESI-MSn

Samples of raw red wine (Primitivo di Manduria, Apulia, Southern Italy) were analysed without any pre‐treatment (except 1 : 2 dilution with water) using HPLC with detection based on UV absorbance and Electrospray Ionisation Sequential Mass Spectrometry (ESI‐MSn, with n = 1–3) in a series configurati...

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Veröffentlicht in:	Journal of mass spectrometry. 2006-07, Vol.41 (7), p.861-871
Hauptverfasser:	Pati, S., Losito, I., Gambacorta, G., Notte, E. La, Palmisano, F., Zambonin, P. G.
Format:	Artikel
Sprache:	eng
Schlagworte:	Analytical chemistry anthocyanin-derived pigments Anthocyanins - isolation & purification Antioxidants - isolation & purification Biflavonoids - isolation & purification Biological and medical sciences Catechin - isolation & purification Chemistry Chromatographic methods and physical methods associated with chromatography Chromatography, High Pressure Liquid - methods Coloring Agents - isolation & purification Exact sciences and technology Fermented food industries Food industries Fundamental and applied biological sciences. Psychology high-performance liquid chromatography Other chromatographic methods proanthocyanidins Proanthocyanidins - isolation & purification sequential mass spectrometry Spectrometry, Mass, Electrospray Ionization - methods Spectrophotometry, Ultraviolet Wine - analysis Wines and vinegars
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container_end_page	871
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container_title	Journal of mass spectrometry.
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creator	Pati, S. Losito, I. Gambacorta, G. Notte, E. La Palmisano, F. Zambonin, P. G.
description	Samples of raw red wine (Primitivo di Manduria, Apulia, Southern Italy) were analysed without any pre‐treatment (except 1 : 2 dilution with water) using HPLC with detection based on UV absorbance and Electrospray Ionisation Sequential Mass Spectrometry (ESI‐MSn, with n = 1–3) in a series configuration. In particular, absorbance at 520 nm was monitored for UV detection in order to identify pigments responsible for wine colour. On the other hand, two subsequent stages of MS detection based on positive ions were adopted. The first consisted of an explorative MS acquisition, aimed at the individuation of the m/z ratios for positively charged compounds; the second was based on fragmentation of the detected ions within an ion trap analyser, followed by MS/MS and, if required, MS3 acquisitions. The synergy between UV detection and MSn analysis led to the identification of 41 pigments, which can be classified into five groups: grape anthocyanins, pyranoanthocyanins, vinyl‐linked anthocyanin‐flavanol pigments, ethyl‐bridged anthocyanin‐flavanol pigments and flavanol‐anthocyanin compounds. Many isomeric and oligomeric structures were found within each group. A further class of compounds, not absorbing in the visible spectrum, could be also characterised by ESI‐MSn and corresponded to B‐type procyanidins, i.e. proanthocyanidins arising from C4→C8/C4→C6 couplings between catechin or epicatechin units. In particular, oligomeric structures (from dimers to pentamers), often present with several isomers, were identified and their fragmentation patterns clarified. Copyright © 2006 John Wiley & Sons, Ltd.
doi_str_mv	10.1002/jms.1044
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The synergy between UV detection and MSn analysis led to the identification of 41 pigments, which can be classified into five groups: grape anthocyanins, pyranoanthocyanins, vinyl‐linked anthocyanin‐flavanol pigments, ethyl‐bridged anthocyanin‐flavanol pigments and flavanol‐anthocyanin compounds. Many isomeric and oligomeric structures were found within each group. A further class of compounds, not absorbing in the visible spectrum, could be also characterised by ESI‐MSn and corresponded to B‐type procyanidins, i.e. proanthocyanidins arising from C4→C8/C4→C6 couplings between catechin or epicatechin units. In particular, oligomeric structures (from dimers to pentamers), often present with several isomers, were identified and their fragmentation patterns clarified. 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La</creatorcontrib><creatorcontrib>Palmisano, F.</creatorcontrib><creatorcontrib>Zambonin, P. G.</creatorcontrib><title>Simultaneous separation and identification of oligomeric procyanidins and anthocyanin-derived pigments in raw red wine by HPLC-UV-ESI-MSn</title><title>Journal of mass spectrometry.</title><addtitle>J. Mass Spectrom</addtitle><description>Samples of raw red wine (Primitivo di Manduria, Apulia, Southern Italy) were analysed without any pre‐treatment (except 1 : 2 dilution with water) using HPLC with detection based on UV absorbance and Electrospray Ionisation Sequential Mass Spectrometry (ESI‐MSn, with n = 1–3) in a series configuration. In particular, absorbance at 520 nm was monitored for UV detection in order to identify pigments responsible for wine colour. On the other hand, two subsequent stages of MS detection based on positive ions were adopted. The first consisted of an explorative MS acquisition, aimed at the individuation of the m/z ratios for positively charged compounds; the second was based on fragmentation of the detected ions within an ion trap analyser, followed by MS/MS and, if required, MS3 acquisitions. The synergy between UV detection and MSn analysis led to the identification of 41 pigments, which can be classified into five groups: grape anthocyanins, pyranoanthocyanins, vinyl‐linked anthocyanin‐flavanol pigments, ethyl‐bridged anthocyanin‐flavanol pigments and flavanol‐anthocyanin compounds. Many isomeric and oligomeric structures were found within each group. A further class of compounds, not absorbing in the visible spectrum, could be also characterised by ESI‐MSn and corresponded to B‐type procyanidins, i.e. proanthocyanidins arising from C4→C8/C4→C6 couplings between catechin or epicatechin units. In particular, oligomeric structures (from dimers to pentamers), often present with several isomers, were identified and their fragmentation patterns clarified. Copyright © 2006 John Wiley & Sons, Ltd.</description><subject>Analytical chemistry</subject><subject>anthocyanin-derived pigments</subject><subject>Anthocyanins - isolation & purification</subject><subject>Antioxidants - isolation & purification</subject><subject>Biflavonoids - isolation & purification</subject><subject>Biological and medical sciences</subject><subject>Catechin - isolation & purification</subject><subject>Chemistry</subject><subject>Chromatographic methods and physical methods associated with chromatography</subject><subject>Chromatography, High Pressure Liquid - methods</subject><subject>Coloring Agents - isolation & purification</subject><subject>Exact sciences and technology</subject><subject>Fermented food industries</subject><subject>Food industries</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>high-performance liquid chromatography</subject><subject>Other chromatographic methods</subject><subject>proanthocyanidins</subject><subject>Proanthocyanidins - isolation & purification</subject><subject>sequential mass spectrometry</subject><subject>Spectrometry, Mass, Electrospray Ionization - methods</subject><subject>Spectrophotometry, Ultraviolet</subject><subject>Wine - analysis</subject><subject>Wines and vinegars</subject><issn>1076-5174</issn><issn>1096-9888</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2006</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqF0c1u1DAQAOAIgWgpSDwB8gVuBjv-P6JV6XZJAWkpHC3HcYpL4mztLNt9hL41DlnYI6cZjT-NPDNF8RKjtxih8t1tn3JC6aPiFCPFoZJSPp5ywSHDgp4Uz1K6RQgpRfnT4gRzIZAk_LR4WPt-240muGGbQHIbE83ohwBMaIBvXBh96-1cGlowdP5m6F30FmziYPcm-MaH9EebMP6YSwE2mfxyDdj4mz73SMAHEM0OxFzb-eBAvQfLL9UCXn-D5-tLeLUOz4snremSe3GIZ8X1h_OviyWsPl9cLt5X0JM8IqQUl6ThpTXccGxlixFhwpaUMtk6gsuWMUlQjRBXjCApWEswqZGtERENVuSseDP3zQPcbV0ade-TdV0370BzKcpSSv5fWCrGkSxFhq8OcFv3rtGb6HsT9_rvljN4fQAmWdO10QTr09EJRalU09fg7Ha-c_vjO9LTlXW-sp6urFdX6ykevU-ju__nTfypuSCC6e-fLnS1Ygu-qpb6I_kNV_-n4A</recordid><startdate>200607</startdate><enddate>200607</enddate><creator>Pati, S.</creator><creator>Losito, I.</creator><creator>Gambacorta, G.</creator><creator>Notte, E. 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On the other hand, two subsequent stages of MS detection based on positive ions were adopted. The first consisted of an explorative MS acquisition, aimed at the individuation of the m/z ratios for positively charged compounds; the second was based on fragmentation of the detected ions within an ion trap analyser, followed by MS/MS and, if required, MS3 acquisitions. The synergy between UV detection and MSn analysis led to the identification of 41 pigments, which can be classified into five groups: grape anthocyanins, pyranoanthocyanins, vinyl‐linked anthocyanin‐flavanol pigments, ethyl‐bridged anthocyanin‐flavanol pigments and flavanol‐anthocyanin compounds. Many isomeric and oligomeric structures were found within each group. A further class of compounds, not absorbing in the visible spectrum, could be also characterised by ESI‐MSn and corresponded to B‐type procyanidins, i.e. proanthocyanidins arising from C4→C8/C4→C6 couplings between catechin or epicatechin units. 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source	MEDLINE; Wiley Online Library Journals Frontfile Complete
subjects	Analytical chemistry anthocyanin-derived pigments Anthocyanins - isolation & purification Antioxidants - isolation & purification Biflavonoids - isolation & purification Biological and medical sciences Catechin - isolation & purification Chemistry Chromatographic methods and physical methods associated with chromatography Chromatography, High Pressure Liquid - methods Coloring Agents - isolation & purification Exact sciences and technology Fermented food industries Food industries Fundamental and applied biological sciences. Psychology high-performance liquid chromatography Other chromatographic methods proanthocyanidins Proanthocyanidins - isolation & purification sequential mass spectrometry Spectrometry, Mass, Electrospray Ionization - methods Spectrophotometry, Ultraviolet Wine - analysis Wines and vinegars
title	Simultaneous separation and identification of oligomeric procyanidins and anthocyanin-derived pigments in raw red wine by HPLC-UV-ESI-MSn
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