Month: December 2022

Valasek, Pavel published the artcileComparison of contents of selected esters, higher alcohols and total content of polyphenolic substances in wines of the varieties ‘Chardonnay’ and ‘Riesling’ by vintage, Recommanded Product: rel-(1R,2R,4R)-1,7,7-Trimethylbicyclo[2.2.1]heptan-2-ol, the main research area is wine polyphenols ester alc.

The content of individual sensory active substances in wine is an important parameter of wine evaluation concerning sensory attributes of wine. This article discusses the development of aromatic substances contents in wines of ‘Chardonnay’ and ‘Riesling’ grapes in five consecutive wine vintages (2008 to 2012) from the same vineyard track and processed using the same methods. Out of biol. active substances, the total content of phenolic substances was determined in the presented samples. In the individual samples, aromatic substances were analyzed using gas chromatog. with mass spectrometry (GC/MS). The concentration of 1 pentanol was the highest (82 to 292 mg/l). Isobutanol and 1 propanol followed. In ‘Chardonnay’, out of esters, the concentration Et acetate was the highest, followed by Et ester of caprylic acid and isoamyl acetate. ‘Riesling’ had characteristics of highly concentrated Et acetate, pentyl formate and Et caprylate. The total content of polyphenolic substances was in a range of 188 to 308 mg/l in ‘Chardonnay’ and 194 to 281 mg/l in ‘Riesling’. Average values in ‘Riesling’ were higher than in ‘Chardonnay’. The article documents that wines made from the same grape variety grown at the same vineyard track during similar climatic conditions and processed using the same techniques do not possess the same aromatic characteristics. Minor changes of individual factors may cause significant changes of a wine’s sensory quality.

Mitteilungen Klosterneuburg published new progress about Alcohols Role: BSU (Biological Study, Unclassified), BIOL (Biological Study). 124-76-5 belongs to class alcohols-buliding-blocks, name is rel-(1R,2R,4R)-1,7,7-Trimethylbicyclo[2.2.1]heptan-2-ol, and the molecular formula is C10H18O, Recommanded Product: rel-(1R,2R,4R)-1,7,7-Trimethylbicyclo[2.2.1]heptan-2-ol.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Sanchez-Palomo, E. published the artcileThe aroma of La Mancha Chelva wines: Chemical and sensory characterization, Product Details of C4H10OS, the main research area is Vitis volatile aroma compound chem sensory property; Aromatic series, Sensory Analysis; Chelva white wine; Gas chromatography-mass spectrometry; Volatile aroma compounds.

The aim of this study is the chem. and sensory description of the aroma of wines white Chelva through five successive vintages. Solid Phase Extraction (SPE) was used for the isolation of volatile compounds and Gas Chromatog. Mass Spectrometry (GC-MS) was employed by their anal. Aroma Sensory Profile of wines was defined using the Quant. Descriptive Sensory Anal. (QDA). A total of 77 volatile compounds were identified in Chelva wines. Chelva wines present a great quantity of aromatic compounds of very different chem. nature and with different aromatic descriptors, which will increase its aromatic complexity of these wines. Aroma sensory profile of Chelva wines was defined by higher intensity of fresh and peach aromas with notes citric, green apple, tropical fruit and sweet. This study showed that the Chelva grapes variety cultivated in La Mancha region present a great aroma potential and a complex sensory profile and can be considered a viable alternative to traditional grape varieties cultivated in this region for increasing the offer to the consumer.

Food Research International published new progress about Alcohols Role: BSU (Biological Study, Unclassified), BIOL (Biological Study). 505-10-2 belongs to class alcohols-buliding-blocks, name is 3-(Methylthio)propan-1-ol, and the molecular formula is C4H10OS, Product Details of C4H10OS.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Vilanova, M. published the artcileInfluence of water regime on yield components, must composition and wine volatile compounds of Vitis vinifera cv. Verdejo, Category: alcohols-buliding-blocks, the main research area is Vitis wine volatile compound yield irrigation.

Background and Aims : Available soil water is an important factor determining grapevine yield and grape composition The aim of this study was to determine the impact of water availability on the yield components and the composition of must and wine of Vitis vinifera L. cv. Verdejo. Methods and Results : The irrigation strategies [rainfed (R0), drip irrigated at 25% ETo (R25) and 50% ETo (R50) applied weekly from the end of the vegetative main shoot growth until harvest] were imposed on white Verdejo grapevines over three consecutive seasons (2012-2014). The 50% ETo treatment resulted in the highest yield. Increasing water availability also reduced the concentration of volatile phenols in all seasons, and of the C6 compounds in 2014 alone. The highest concentration of five individual volatile compounds was associated with the lowest water availability (R0). Conclusions : High water availability increased yield and its components, mainly in the wettest season. Volatile compounds in wine were modified by water regime, with their concentration increased by the most severe deficit irrigation regime (R0). The effect of the year on must and wine composition was greater than the in-season effects of water availability treatment. Significance of the Study : This study has described the effect of soil water availability on yield and its components and the composition of must and wine of Verdejo.

Australian Journal of Grape and Wine Research published new progress about Alcohols Role: BSU (Biological Study, Unclassified), BIOL (Biological Study). 505-10-2 belongs to class alcohols-buliding-blocks, name is 3-(Methylthio)propan-1-ol, and the molecular formula is C4H10OS, Category: alcohols-buliding-blocks.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Furdikova, Katarina published the artcileComparison of different categories of Slovak Tokaj wines in terms of profiles of volatile organic compounds, Recommanded Product: 3-(Methylthio)propan-1-ol, the main research area is volatile organic compound furanoid Tokaj wine; Tokaj; comprehensive gas chromatography; high-resolution mass spectrometry; winemaking technologies.

The present work deals with the characterization of volatile organic compounds in wines from the Slovak Tokaj wine region. Studied wine samples were divided into 3 groups-varietal wines from registered Tokaj vine varieties, film wines Tokajske samorodne dry, and naturally sweet botrytized wines Tokaj selections. The VOCs from wines were extracted using optimized solid phase microextraction and analyzed by comprehensive two-dimensional gas chromatog. coupled to high-resolution time-of-flight mass spectrometry (HRTOF-MS). In total, 176 VOCs were identified in all 46 studied samples. It was found that the total number of VOCs in varietal wines was generally higher than in botrytized wines. All three studied categories showed characteristic VOC profiles with significant differences. Varietal wines were characterized by higher concentrations of esters and terpenoids originating from grapes. The presence of γ-octalactone, (E)-6-methylhept-2-en-4-one, and lack of benzaldehyde were typical for Tokajske samorodne dry. Tokaj selections expressed the highest concentration of di-Et malate, benzaldehyde, and furfurals. Several interesting trends were also observed The concentration of fermentation products was highest in varietal wines, while long-term matured Tokaj special wines were typified by the presence of compounds related to noble-rotten raisins (2-phenylacetaldehyde, Et 2-phenylacetate, and 2-phenylethanol), wood (cis-whisky lactone), and aging (1,1,6-trimethyl-2H-naphthalene, furfural, and 5-methylfurfural).

Molecules published new progress about Alcohols Role: BSU (Biological Study, Unclassified), BIOL (Biological Study). 505-10-2 belongs to class alcohols-buliding-blocks, name is 3-(Methylthio)propan-1-ol, and the molecular formula is C4H10OS, Recommanded Product: 3-(Methylthio)propan-1-ol.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Sumby, K. M. published the artcileEthanol-tolerant lactic acid bacteria strains as a basis for efficient malolactic fermentation in wine: evaluation of experimentally evolved lactic acid bacteria and winery isolates, Formula: C4H6O5, the main research area is wine citric acid glycerol malolactic fermentation Oenococcus.

Background and Aims : Reliable malolactic fermentation (MLF) is essential for process efficiency and spoilage prevention in wine. This study extends previous research in our laboratory, aimed at the development and selection of new bacterial strains for reliable MLF in wine, focusing on ethanol-tolerant lactic acid bacteria (LAB) strains. Sensory differences of seven LAB strains were assessed, including two com. strains, two ethanol-tolerant strains derived from directed evolution and three isolates from a high ethanol Grenache. Methods and Results : In this study, the performance of 30 LAB strains was first assessed in fermented chem. defined grape juice media. Seven of the best performing strains were then tested in small-scale (5 L) fermentations in Shiraz and Shiraz-Grenache blend wines. All wines were evaluated with a sensory panel using free choice profiling. Conclusions : Despite significantly different MLF kinetics between the strains there were no strain-specific differences on the final wines. The choice of LAB strain did not adversely change the sensory properties of either wine. Significance of the Study : These findings provide reassurance that the efficient LAB strains (G71 and G55) and the modified directed evolution strains do not compromise the sensory properties of wines despite their marked MLF benefits.

Australian Journal of Grape and Wine Research published new progress about Alcohols Role: BSU (Biological Study, Unclassified), BIOL (Biological Study). 97-67-6 belongs to class alcohols-buliding-blocks, name is (S)-2-hydroxysuccinic acid, and the molecular formula is C4H6O5, Formula: C4H6O5.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Moreira, Thiago Batista published the artcileA genome-scale metabolic model of soybean (Glycine max) highlights metabolic fluxes in seedlings, SDS of cas: 97-67-6, the main research area is Glycine seedling metabolic flux stoichiometric model.

Until they become photoautotrophic juvenile plants, seedlings depend upon the reserves stored in seed tissues. These reserves must be mobilized and metabolized, and their breakdown products must be distributed to the different organs of the growing seedling. Here, we investigated the mobilization of soybean (Glycine max) seed reserves during seedling growth by initially constructing a genome-scale stoichiometric model for this important crop plant and then adapting the model to reflect metabolism in the cotyledons and hypocotyl/root axis (HRA). A detailed anal. of seedling growth and alterations in biomass composition was performed over 4 d of postgerminative growth and used to constrain the stoichiometric model. Flux balance anal. revealed marked differences in metabolism between the two organs, together with shifts in primary metabolism occurring during different periods postgermination. In particular, from 48 h onward, cotyledons were characterized by the oxidation of fatty acids to supply carbon for the tricarboxylic acid cycle as well as production of sucrose and glutamate for export to the HRA, while the HRA was characterized by the use of a range of imported amino acids in protein synthesis and catabolic processes. Overall, the use of flux balance modeling provided new insight into well-characterized metabolic processes in an important crop plant due to their anal. within the context of a metabolic network and reinforces the relevance of the application of this technique to the anal. of complex plant metabolic systems.

Plant Physiology published new progress about Alcohols Role: BSU (Biological Study, Unclassified), BIOL (Biological Study). 97-67-6 belongs to class alcohols-buliding-blocks, name is (S)-2-hydroxysuccinic acid, and the molecular formula is C4H6O5, SDS of cas: 97-67-6.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Gil-Munoz, Rocio published the artcileEffect of the use of purified grape pomace as a fining agent on the volatile composition of monastrell wines, Recommanded Product: 3-(Methylthio)propan-1-ol, the main research area is Monastrell wine purified grape pomace fining agent volatile compound; fining agents; purified grape pomace; volatile composition; wine.

(1) Background: The lack of viable alternatives for the industrial exploitation of grape pomace is one of the reasons why it is considered a serious environmental pollutant. However, as a byproduct, it could be used as a fining agent, since previous studies have shown that it is able to eliminate undesirable substances in wine. However, the little information available does not describe its effect on wine aroma. (2) Methods: Purified grape pomace extracts were used for fining a red wine and their effect on the volatile compounds of the wine was assessed, comparing the results with those obtained with different com. fining agents. (3) Results: The results showed how purified grape pomace decreased the total volatile content of a wine to a similar extent as other fining products, such as yeast extracts or gelatin. Among the different families of volatile compounds analyzed, only total esters and terpenes differed from the levels recorded for a control wine, being slightly lower. No statistical differences were found for the rest of the volatile compounds (alcs., carbonyl, lactones, and acids) compared with the levels measured in control wine. (4) Conclusions: The results suggest that purified grape pomace could be used as a non-allergenic wine fining agent.

Molecules published new progress about Alcohols Role: BSU (Biological Study, Unclassified), BIOL (Biological Study). 505-10-2 belongs to class alcohols-buliding-blocks, name is 3-(Methylthio)propan-1-ol, and the molecular formula is C4H10OS, Recommanded Product: 3-(Methylthio)propan-1-ol.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Van Landschoot, Anita published the artcileSaccharides and sweeteners in beer, Safety of (3R,4R,5R)-6-(((2S,3R,4S,5S,6R)-3,4,5-Trihydroxy-6-(hydroxymethyl)tetrahydro-2H-pyran-2-yl)oxy)hexane-1,2,3,4,5-pentaol, the main research area is saccharide sweetener beer.

High Performance Anion Exchange Chromatog. (HPAEC) coupled to Pulsed Amperometric Detection (PAD) proved to be a very suitable technique to study the saccharide profile of beers and sweeteners and to determine quant. the content of saccharides in beers and sweeteners. It appeared that many top- and bottom-fermented beers contained residual fermentable saccharides and that comparable beers could have quite different saccharide spectra. The content of lower and higher (iso)malto-oligosaccharides in beers showed big differences. Higher isomalto-oligosaccharides in beer with the same d.p. were a mixture of isomalto-oligosaccharides. Fractionation combined with enzyme treatments can be used to characterize the isomalto-oligosaccharides in beer. Sweet and non-sweet Belgian kriek beers differed from each other in many parameters. Potential new sweeteners did not fulfil the expectations concerning sweetness, properties, composition or fermentation behavior.

Cerevisia published new progress about Alcohols Role: BSU (Biological Study, Unclassified), BIOL (Biological Study). 64519-82-0 belongs to class alcohols-buliding-blocks, name is (3R,4R,5R)-6-(((2S,3R,4S,5S,6R)-3,4,5-Trihydroxy-6-(hydroxymethyl)tetrahydro-2H-pyran-2-yl)oxy)hexane-1,2,3,4,5-pentaol, and the molecular formula is C12H24O11, Safety of (3R,4R,5R)-6-(((2S,3R,4S,5S,6R)-3,4,5-Trihydroxy-6-(hydroxymethyl)tetrahydro-2H-pyran-2-yl)oxy)hexane-1,2,3,4,5-pentaol.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Reese, Kristen L. published the artcileMetabolic Profiling of Volatile Organic Compounds (VOCs) Emitted by the Pathogens Francisella tularensis and Bacillus anthracis in Liquid Culture, SDS of cas: 505-10-2, the main research area is Francisella Bacillus volatile organic compound metabolic profiling.

Abstract: We conducted comprehensive (untargeted) metabolic profiling of volatile organic compounds (VOCs) emitted in culture by bacterial taxa Francisella tularensis (F. tularensis) subspecies novicida and Bacillus anthracis (B. anthracis) Sterne, surrogates for potential bacterial bioterrorism agents, as well as selective measurements of VOCs from their fully virulent counterparts, F. tularensis subspecies tularensis strain SCHU S4 and B. anthracis Ames. We developed criteria for distinguishing VOCs originating from bacteria vs. background VOCs (originating from growth media only controls or sampling devices). Analyses of collected VOCs revealed Me ketones, alcs., esters, carboxylic acids, and nitrogen- and sulfur-containing compounds that were present in the bacterial cultures and absent (or present at only low abundance) in control samples indicating that these compounds originated from the bacteria. Distinct VOC profiles where observed for F. tularensis when compared with B. anthracis while the observed profiles of each of the two F. tularensis and B. anthracis strains exhibited some similarities. These data illustrate the potential for VOC profiles to distinguish pathogens at the genus and species-level and to discriminate bacterial growth phases. The determination of VOC profiles lays the groundwork for non-invasive probes of bacterial metabolism and offers prospects for detection of microbe-specific VOC biomarkers from two potential biowarfare agents.

Scientific Reports published new progress about Alcohols Role: BSU (Biological Study, Unclassified), BIOL (Biological Study). 505-10-2 belongs to class alcohols-buliding-blocks, name is 3-(Methylthio)propan-1-ol, and the molecular formula is C4H10OS, SDS of cas: 505-10-2.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Liguori, Loredana published the artcileImpact of dealcoholization on quality properties in white wine at various alcohol content levels, Application of 3-(Methylthio)propan-1-ol, the main research area is white wine Falanghina dealcoholization quality property alc; Aroma; Dealcoholization; Low alcohol content; Membrane; Osmotic distillation; Wine.

The reduction of alc. content in wines has two main objectives, the former is decreasing the wines’ strength and the latter is producing new low alc. beverages. To accomplish the latter, in this study, we focused on the dealcoholization of a white wine (cv Falanghina, 12.5 vol%) obtained from an ancient Italian grape variety that has recently aroused a renewed interest. It was dealcoholized at various alc. content levels ranging from 9.8 to 0.3 vol% through the osmotic distillation process, and the main quality parameters of the obtained dealcoholized samples were evaluated. No significant differences (p < 0.05) in total phenols, flavonoids, organic acids and total acidity were observed among the wine samples at different alc. content levels. On the contrary, the volatile compounds content decreased with increasing alc. removal. Specifically, almost 50% of higher alcs. with acids and lactones were preserved in dealcoholized wine at 9.8 vol% alc. content, but this percentage reduced to 30% in the sample at 6.8 vol%, and was even lower in the dealcoholized wine with lower alc. content. It was argued that the transport of volatile compounds through the membrane, beside the membrane selectivity, is highly correlated with the Henry constant (R2 > 0.8021 for 9.8 vol% of dealcoholized wine). Moreover, results of the sensory evaluation indicated a significant change in terms of acidity, odor, sweetness and body taste in dealcoholized wine (0.3 vol%), giving an overall perceived imbalance and unacceptable taste with respect to the original wine. Therefore, in order to balance acid sensation and enhance body and aftertaste, an attempt was made to formulate an alc.-free wine-based beverage with enhanced odor and sweetness, by adding some floral wine flavours, up to the amount present in the original wine.

Journal of Food Science and Technology (New Delhi, India) published new progress about Alcohols Role: BSU (Biological Study, Unclassified), BIOL (Biological Study). 505-10-2 belongs to class alcohols-buliding-blocks, name is 3-(Methylthio)propan-1-ol, and the molecular formula is C4H10OS, Application of 3-(Methylthio)propan-1-ol.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts