Identification of lignans by liquid chromatography‐electrospray ionization ion‐trap mass spectrometry

Eklund, Patrik; Backman, Max; Krönberg, Leif; Smeds, Annika; Sjöholm, Rainer

doi:10.1002/jms.1276

Cited by 135 publications

(113 citation statements)

References 31 publications

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“…Another dilignol belonging to the 8-8´link-age group is compound 32, tentatively identified as syringaresinol since their [M-H] -and fragmentation ions were consistent with data previously reported in the literature. [31,32] Syringaresinol was also detected in ash thermal treated wood (200 C, 4 h) using GC-MS 15 , and in the phloem of F. americana by LC-MS. [12] On the basis of the fragmentation patterns, compounds 13, 15 and 22 were characterized as b-aryl ether dilignols. [31] Consecutive losses of formaldehyde and water and A -and B -products ions allowed the characterization of the bonding structure and the aromatic units involved in these dimers (m/z 195 or m/z 179 for guaiacyl A or B ions, respectively; m/z 225 for syringyl A -ion, and m/z 223 for unit derived for sinapaldehyde).…”

Section: Dilignols and Oligolignolsmentioning

confidence: 96%

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LC‐DAD/ESI‐MS/MS study of phenolic compounds in ash (Fraxinus excelsior L. and F. americana L.) heartwood. Effect of toasting intensity at cooperage

Sanz¹,

Simón

Cadahía

et al. 2012

J. Mass. Spectrom.

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The phenolic composition of heartwood extracts from Fraxinus excelsior L. and F. americana L., both before and after toasting in cooperage, was studied using LC-DAD/ESI-MS/MS. Low-molecular weight (LMW) phenolic compounds, secoiridoids, phenylethanoid glycosides, dilignols and oligolignols compounds were detected, and 48 were identified, or tentatively characterized, on the basis of their retention time, UV/Vis and MS spectra, and MS fragmentation patterns. Some LMW phenolic compounds like protocatechuic acid and aldehyde, hydroxytyrosol and tyrosol, were unlike to those for oak wood, while ellagic and gallic acid were not found. The toasting of wood resulted in a progressive increase in lignin degradation products with regard to toasting intensity. The levels of some of these compounds in medium-toasted ash woods were much higher than those normally detected in toasted oak, highlighting vanillin levels, thus a more pronounced vanilla character can be expected when using toasted ash wood in the aging wines. Moreover, in seasoned wood, we found a great variety of phenolic compounds which had not been found in oak wood, especially oleuropein, ligstroside and olivil, along with verbascoside and isoverbascoside in F. excelsior, and oleoside in F. americana. Toasting mainly provoked their degradation, thus in medium-toasted wood, only four of them were detected. This resulted in a minor differentiation between toasted ash and oak woods. The absence of tannins in ash wood, which are very important in oak wood, is another peculiar characteristic that should be taken into account when considering its use in cooperage.

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Section: Dilignols and Oligolignolsmentioning

confidence: 96%

“…Peaks 9, 11,13,15,22,26,27,32,33,34,36,38,39,46,48, 50, 52, 54 and 55 were identified as dilignols or oligolignols, using literature data for UV/Vis absorbance and mass spectra when standards were not available. Among them, different class of dilignols and oligolignols were identified.…”

Section: Dilignols and Oligolignolsmentioning

confidence: 99%

LC‐DAD/ESI‐MS/MS study of phenolic compounds in ash (Fraxinus excelsior L. and F. americana L.) heartwood. Effect of toasting intensity at cooperage

Sanz¹,

Simón

Cadahía

et al. 2012

J. Mass. Spectrom.

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“…Metabolic conversion types were selected from the list given by Morreel et al (2014) based on their prevalence in CSPP networks and presumed presence in gymnosperms. Structural elucidation of the multiplestage mass spectrometry fragmentation MS n spectra was based on Eklund et al (2008) and Morreel et al (2004Morreel et al ( , 2010aMorreel et al ( , 2010b for the (neo)lignans/oligolignols, on Cuyckens and Claeys (2004), Fabre et al (2001), Hughes et al (2001), Morreel et al (2006), and Hvattum and Ekeberg (2003) for the flavonoids, on Zhou et al (2013) and Abu-Reidah et al (2014) for the C-glycosylated flavanones, on Morreel et al (2014) for the phenylpropanoids/benzenoids, and on Gu et al (2003) and Jaiswal et al (2012) for the condensed tannins. Shorthand names for the oligolignols are as explained by Morreel et al (2004).…”

Section: Phenolic Profilingmentioning

confidence: 99%

A Key Role for Apoplastic H₂O₂ in Norway Spruce Phenolic Metabolism

et al. 2017

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Apoplastic events such as monolignol oxidation and lignin polymerization are difficult to study in intact trees. To investigate the role of apoplastic hydrogen peroxide (H 2 O 2 ) in gymnosperm phenolic metabolism, an extracellular lignin-forming cell culture of Norway spruce (Picea abies) was used as a research model. Scavenging of apoplastic H 2 O 2 by potassium iodide repressed lignin formation, in line with peroxidases activating monolignols for lignin polymerization. Time-course analyses coupled to candidate substrate-product pair network propagation revealed differential accumulation of low-molecular-weight phenolics, including (glycosylated) oligolignols, (glycosylated) flavonoids, and proanthocyanidins, in lignin-forming and H 2 O 2 -scavenging cultures and supported that monolignols are oxidatively coupled not only in the cell wall but also in the cytoplasm, where they are coupled to other monolignols and proanthocyanidins. Dilignol glycoconjugates with reduced structures were found in the culture medium, suggesting that cells are able to transport glycosylated dilignols to the apoplast. Transcriptomic analyses revealed that scavenging of apoplastic H 2 O 2 resulted in remodulation of the transcriptome, with reduced carbon flux into the shikimate pathway propagating down to monolignol biosynthesis. Aggregated coexpression network analysis identified candidate enzymes and transcription factors for monolignol oxidation and apoplastic H 2 O 2 production in addition to potential H 2 O 2 receptors. The results presented indicate that the redox state of the apoplast has a profound influence on cellular metabolism.

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“…Recently, a combination of liquid chromatography and electrospray ionization mass spectrometry (LC-ESI-MS) has become a sensitive method for lignan analysis (Eklund et al 2008;). Since the sensitivity of LC-ESI-MS can be increased by lowering the flow rate of the mobile phase, capillary LC-ESI-MS systems with narrow diameter LC columns are more sensitive than conventional LC-ESI-MS systems (Abian et al 1999;Hopfgartner et al 1993).…”

mentioning

confidence: 99%

Simultaneous quantification of lignans in Arabidopsis thaliana by highly sensitive capillary liquid chromatography-electrospray ionization-ion trap mass spectrometry

Okazawa

Hori

Okumura

et al. 2011

Plant Biotechnology

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Identification of lignans by liquid chromatography‐electrospray ionization ion‐trap mass spectrometry

Cited by 135 publications

References 31 publications

LC‐DAD/ESI‐MS/MS study of phenolic compounds in ash (Fraxinus excelsior L. and F. americana L.) heartwood. Effect of toasting intensity at cooperage

LC‐DAD/ESI‐MS/MS study of phenolic compounds in ash (Fraxinus excelsior L. and F. americana L.) heartwood. Effect of toasting intensity at cooperage

A Key Role for Apoplastic H₂O₂ in Norway Spruce Phenolic Metabolism

Simultaneous quantification of lignans in Arabidopsis thaliana by highly sensitive capillary liquid chromatography-electrospray ionization-ion trap mass spectrometry

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Identification of lignans by liquid chromatography‐electrospray ionization ion‐trap mass spectrometry

Cited by 135 publications

References 31 publications

LC‐DAD/ESI‐MS/MS study of phenolic compounds in ash (Fraxinus excelsior L. and F. americana L.) heartwood. Effect of toasting intensity at cooperage

LC‐DAD/ESI‐MS/MS study of phenolic compounds in ash (Fraxinus excelsior L. and F. americana L.) heartwood. Effect of toasting intensity at cooperage

A Key Role for Apoplastic H2O2 in Norway Spruce Phenolic Metabolism

Simultaneous quantification of lignans in Arabidopsis thaliana by highly sensitive capillary liquid chromatography-electrospray ionization-ion trap mass spectrometry

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A Key Role for Apoplastic H₂O₂ in Norway Spruce Phenolic Metabolism