Renewing Traditions: A Sensory and Chemical Characterisation of Mexican Pigmented Corn Beers

Romero-Medina, Angélica; Estarrón‐Espinosa, Mirna; Verde-Calvo, J. R.; Lelièvre-Desmas, Maud; Escalona‐Buendía, Héctor B.

doi:10.3390/foods9070886

Cited by 21 publications

(25 citation statements)

References 51 publications

(113 reference statements)

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“…A comprehensive study of lager beer volatile composition was provided by profiling 329 volatile metabolites (wherein 181 were putatively identified, and 96 were reported for the first time), which were distributed over eight chemical families with potential impact on beer aroma, namely, acids (17), alcohols (60), esters (87), monoterpenic compounds (91), norisoprenoids (16), sesquiterpenic compounds (42), sulfur compounds (13), and volatile phenols (3). As far as we know, this study represents the most in-depth and detailed profiling of the lager beer volatile composition, which was only possible due to the combination of the extraction technique (SPME), which allows a direct analysis of beer without the addition of any organic solvent (fulfils the criteria for the green analytical chemistry techniques), with the high sensitivity, chromatographic resolution and high throughput technique, such as the GC×GC-ToFMS.…”

Section: Discussionmentioning

confidence: 99%

“…The chemical families with higher number of detected metabolites present in Figure 4 were esters and monoterpenic compounds (ca. 90 metabolites each), followed by alcohols (60), sesquiterpenic compounds (42), acids (17), norisoprenoids (16), sulfur compounds (13), and volatile phenols (3). Moreover, the amount of each metabolite (median GC chromatographic peak area in all lager beer under study) is reflected in the edge' thickness, and also in the size of the volatile metabolites' name ( Figure 4), i.e., the higher GC chromatographic peak area is proportional to the highest volatile metabolites' names and edge thickness (e.g., octanoic acid and phenylethanol were the volatile metabolites with the highest GC chromatographic peak area, considering all the lager beers under study).…”

Section: Profiling the Lager Beer Volatile Metabolitesmentioning

confidence: 99%

“…Furthermore, as esters are important beer volatiles (have low thresholds and contribute for beers overall aroma [56]), a detailed analysis was performed for different ester classes, namely, short-chain (fruity aromas [16]), long-chain (oily aromas [16]), and acetate esters (fruity aromas [16]). Short-chain and long-chain esters showed highest GC chromatographic areas for micro-bbs ( Figure S11), while acetate esters showed no statistical differences between macro-bbs and micro-bbs ( Figure S12).…”

Section: Lager Beer Typingmentioning

confidence: 99%

“…Thus, metabolomics might be helpful to comprehend the relation of the composition with the sensory and nutritional quality of foods. Metabolomics have been used to differentiate beers according to their type [13,14], cereals type [15,16], hops [17], or yeasts footprinting [18][19][20][21]. Moreover, beer volatile metabolites were tracked along the brewing process [22,23], different storage conditions [24,25], or dealcoholization process [26].…”

Section: Introductionmentioning

confidence: 99%

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Enlarging Knowledge on Lager Beer Volatile Metabolites Using Multidimensional Gas Chromatography

Martins

Brandão²,

Almeida

et al. 2020

Foods

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Foodomics, emergent field of metabolomics, has been applied to study food system processes, and it may be useful to understand sensorial food properties, among others, through foods metabolites profiling. Thus, as beer volatile components represent the major contributors for beer overall and peculiar aroma properties, this work intends to perform an in-depth profiling of lager beer volatile metabolites and to generate new data that may contribute for molecules’ identification, by using multidimensional gas chromatography. A set of lager beers were used as case-study, and 329 volatile metabolites were determined, distributed over 8 chemical families: acids, alcohols, esters, monoterpenic compounds, norisoprenoids, sesquiterpenic compounds, sulfur compounds, and volatile phenols. From these, 96 compounds are reported for the first time in the lager beer volatile composition. Around half of them were common to all beers under study. Clustering analysis allowed a beer typing according to production system: macro- and microbrewer beers. Monoterpenic and sesquiterpenic compounds were the chemical families that showed wide range of chemical structures, which may contribute for the samples’ peculiar aroma characteristics. In summary, as far as we know, this study presents the most in-depth lager beer volatile composition, which may be further used in several approaches, namely, in beer quality control, monitoring brewing steps, raw materials composition, among others.

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Section: Discussionmentioning

confidence: 99%

Section: Profiling the Lager Beer Volatile Metabolitesmentioning

confidence: 99%

Section: Lager Beer Typingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Enlarging Knowledge on Lager Beer Volatile Metabolites Using Multidimensional Gas Chromatography

Martins

Brandão²,

Almeida

et al. 2020

Foods

View full text Add to dashboard Cite

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“…The result was a beer with total polyphenols concentration up to 560 mg GAE/L and of total anthocyanins up to 19.4 mg cyaniding-3-glucoside/L [ 150 ]. More recently, the same laboratory obtained blue or red corn malt blended beers with even higher total phenols amount (up to 849.5 mg GAE/L) and identified anthocyanins responsible for the final color yield of red and blue corn beers (pelargonidin-3-glucoside and cyanidin-3-glucoside) [ 151 ]. Authors also identified, in corn beers both previously reported and unreported, volatile phenols conferring desirable aromas to beers.…”

Section: Cereal-based Enrichment Of Beer Phenolsmentioning

confidence: 99%

The Role of Bioactive Phenolic Compounds on the Impact of Beer on Health

2021

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This review reports recent knowledge on the role of ingredients (barley, hop and yeasts), including genetic factors, on the final yield of phenolic compounds in beer, and how these molecules generally affect resulting beer attributes, focusing mainly on new attempts at the enrichment of beer phenols, with fruits or cereals other than barley. An entire section is dedicated to health-related effects, analyzing the degree up to which studies, investigating phenols-related health effects of beer, have appropriately considered the contribution of alcohol (pure or spirits) intake. For such purpose, we searched Scopus.com for any kind of experimental model (in vitro, animal, human observational or intervention) using beer and considering phenols. Overall, data reported so far support the existence of the somehow additive or synergistic effects of phenols and ethanol present in beer. However, findings are inconclusive and thus deserve further animal and human studies.

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