Category: 505-10-2

Sieiro-Sampedro, Thais published the artcileImpact of mepanipyrim and tetraconazole in Menciá wines on the biosynthesis of volatile compounds during the winemaking process, Computed Properties of 505-10-2, the main research area is mepanipyrim tetraconazole wine volatile flavor; Aroma profile; Fungicide; Mepanipyrim; Red wine; Tetraconazole; Yeasts.

The impact of fungicides mepanipyrim (Mep) and tetraconazole (Tetra) and their corresponding com. formulations (Mep-Form and Tetra-Form) on the aroma composition of wines was assessed. Fungicide residues can affect the biotransformation of aroma precursors from grapes and/or the yeast metabolism The results confirmed that both maximum residue levels (MRL and 2xMRL) of Mep promoted benzyl alc. and 4-vinylguaiacol contents; while MRL and 2xMRL of Mep-Form promoted benzene derivatives (benzyl alc., benzaldehyde, and trans-isoeugenol), 2-phenylethanol and γ-nonalactone. The addition of Tetra (2xMRL) and Tetra-Form (MRL and 2xMRL) release higher contents of cis-3-hexen-1-ol and Et vanillate and affected yeast metabolism related to phenylacetaldehyde, 2-phenylethanol, methionol, capric acid, Et 2-methylbutyrate, Et isovalerate, Et monosuccinate, di-Et succinate and γ-butyrolactone production Fungicide residues did not display higher variations in global odor activity values with respect to control wines, although some variations on the “”floral””, “”fruity””, “”spicy”” and “”lactic”” nuances could be sensed.

Food Chemistry published new progress about Flavor. 505-10-2 belongs to class alcohols-buliding-blocks, name is 3-(Methylthio)propan-1-ol, and the molecular formula is C4H10OS, Computed Properties of 505-10-2.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Tang, Zhong-Sheng published the artcileCharacterization of aroma profile and characteristic aromas during lychee wine fermentation, SDS of cas: 505-10-2, the main research area is lychee wine fermentation citronellol methionol rose oxide aroma.

Characteristic aroma substances of cis-rose oxide imparts the odorant of “”lychee-like,”” while of citronellol is the precursor of it in lychee. The characterization of volatiles of lychee wine fermentation using headspace solid-phase microextraction gas chromatog.-mass spectrometry combined with headspace gas chromatog.-ion mobility spectrometry were done to regulate processing. Results indicated that the total of 97 volatiles (38 in common) were observed during fermentation, including 39 terpenoids, 5 alcs., 22 esters, 4 acids, 7 alkenes, 4 ketones and ethers, 3 sulfur compounds and others. Losses of characteristic aromas mainly occurred during primary fermentation more than threefold decrease. The volatility of cis-rose oxide was stronger than citronellol, which implied that more gentle processing should be performed to protect lychee flavor. Cis-rose oxide was a mixture of monomer and dimer with unequal proportion, while citronellol was a monomer in lychee. The work provides important new information on aroma development during fermentation Practical applications : Fruit consumption, among which tropical fruit-based products have gained huge popularity in the recent years. The main high value-added processed products of lychee pulp are lychee wine and vinegar; however, the typical aroma always decreased or disappeared during fermentation Therefore, this study aims at providing more information for product improvement and process development.

Journal of Food Processing and Preservation published new progress about Litchi. 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

Park, Jong-Beom published the artcileDevelopment of Korean Indigenous Low-Temperature-Tolerant Yeast for Enhancing the Flavor of Yakju, Product Details of C4H10OS, the main research area is Saccharomyces temperature flavor yakju Korea.

Yakju, a traditional fermented beverage in Korea, is prepared using various raw materials and methods, and, hence, exhibits various characteristics. Low-temperature-fermented yakju can inhibit the growth of undesirable bacteria and is known for its unique flavor and refreshing taste. To increase the production of volatile aromatic compounds in yakju, strains with strong resistance to low temperatures and excellent production of volatile aromatic compounds were screened from indigenous fruits (grape, persimmon, plum, aronia, wild grape) and nuruk in Korea. One Saccharomyces cerevisiae and three non-Saccharomyces strains were finally screened, and yakju was fermented at 15°C through mono/co-culture. The anal. of volatile aromatic compounds showed that S. cerevisiae W153 produced 1.5 times more isoamyl alc. than the control strain and reduced the production of 2,3-butanediol by a third. Similarly, a single culture of Pichia kudriavzevii N373 also produced 237.7 mg/L of Et acetate, whereas Hanseniaspora vineae G818 produced ∼11 times greater levels of 2-phenethyl acetate than the control. Alternatively, Wickerhamomyces anomalus A159 produced 95.88 mg/L of Et hexadecanoate. During principal component anal., we also observed that the co-culture sample exhibited characteristics of both volatile aroma compounds of the single cultured sample of each strain. Our results suggest that yakju with unique properties can be prepared using various non-Saccharomyces strains.

Fermentation published new progress about Aronia. 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

He, Fei published the artcileDifferent distillation stages Baijiu classification by temperature-programmed headspace-gas chromatography-ion mobility spectrometry and gas chromatography-olfactometry-mass spectrometry combined with chemometric strategies, Application of 3-(Methylthio)propan-1-ol, the main research area is distillation baijiu temperature headspace gas chromatog ion mobility spectrometry; Aroma-active compounds; Multivariate statistical analysis; Raw Baijiu classification; Strong flavor Baijiu; TP-HS-GC–IMS.

Liquid-liquid microextraction (LLME) combined with gas chromatog.-olfactometry-mass spectrometry (GC-O-MS) was used to detect the variations in volatile compounds during the distillation process (head, heart, and tail) of raw Baijiu produced by different layers of fermented grains; 47 aroma compounds were sniffed and identified. Moreover, temperature-programmed headspace gas chromatog.-ion mobility spectrometry (TP-HS-GC-IMS) was applied to characterize the Baijiu distillation process for the first time. The 3D fingerprint spectrum clearly showed a variation in volatile compounds from different distillation stages, and most compounds showed a downward trend. In addition, multivariate statistical anal., including principal component anal. (PCA), partial least squares discriminant anal. (PLS-DA), etc., confirmed ten aroma active markers related to classification, indicating that these markers had a great influence on the flavor of raw Baijiu.

Food Chemistry published new progress about Baijiu. 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

Dong, Wei published the artcileCharacterization of key odorants causing the roasted and mud-like aromas in strong-aroma types of base Baijiu, SDS of cas: 505-10-2, the main research area is base Baijiu odorant roasted aroma characterization; 3-(methylthio)propanal (PubChem CID: 18635); 3-methylindole (PubChem CID: 6736); Butyric acid (PubChem CID: 264); Hexanoic acid (PubChem CID: 8892); Interactions; Mud-like odor; Multiple quantitative measurements; Omission analysis; Roasted odor; Strong-aroma types of base Baijiu; p-Cresol (PubChem CID: 2879).

The roasted and mud-like aromas in Chinese strong-aroma types of base Baijiu (base SAB) and the interactions among the corresponding key compounds causing these two characteristic aromas were investigated. A total of 68 and 64 odorants were identified in the base and com. SAB by comparative aroma extract dilution anal. Furthermore, the complex matrix of Baijiu always pose a long-term challenge for quant. accuracy and precision of target aroma compounds; thus, the odorants with flavor dilution (FD) ≥ 9 were further quantified by multiple quant. techniques, including the direct injection combined with gas chromatog.-flame ionization detector, the vortex-assisted surfactant-enhanced emulsification liquid-liquid microextraction (VSLLME) combined with GC-MS, and the derivatization method combined with VSLLME-GC-MS, and 37 and 26 odorants were shown to be important odorants as their OAVs ≥1. Among these components, 5 compounds, hexanoic acid, butyric acid, p-cresol, 3-methylindole, and 3-(methylthio)propanal showed higher OAVs in base than in com. SAB, and based on aroma recombination and omission anal., they were confirmed to be the key odorants responsible for the mud-like and roasted odors. The evaluation of the aforementioned five key odorants by the “”addition”” test showed that the roasted and mud-like aromas of base SAB were related, and the odors were mainly attributed to additive or masking effects among the compounds

Food Research International published new progress about Baijiu. 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

Wang, Lulu published the artcileCharacterization of Potent Odorants Causing a Pickle-like Off-Odor in Moutai-Aroma Type Baijiu by Comparative Aroma Extract Dilution Analysis, Quantitative Measurements, Aroma Addition, and Omission Studies, Quality Control of 505-10-2, the main research area is baijiu aroma off odor; Moutai-aroma type Baijiu; aroma addition; comparative aroma extract dilution analysis; odor activity value; off-odor; omission test.

A potent unpleasant aroma presenting a pickle-like off-odor in Moutai-aroma type Baijiu was studied by comparative aroma extract dilution anal. (AEDA). Two Moutai-aroma type Baijiu samples, one having no off-odor (A) and the other one presenting pickle-like off-odor (B), were selected for chem. anal. and sensory evaluation. The aroma compounds were isolated by headspace solid-phase microextraction and liquid-liquid extraction AEDA, quant. anal., and odor activity value calculation were performed in both the A and B samples. The main differences between the two samples were obtained for 12 compounds, presenting significantly higher concentrations in the off-odor sample. A total of 30 Moutai-aroma type Baijiu samples having different intensities of pickle-like sensory defect were analyzed to confirm the differences. An aroma addition test indicated that the 12 compounds with higher concentrations contributed to the pickle-like off-odor when spiked into sample A. Finally, a triangle test involving omission of the aroma compounds from the spiked A sample proved that 2-methyl-3-furanthiol, methional, Me 2-methyl-3-furyl disulfide, di-Me trisulfide, 2-furfurylthiol, methanethiol, di-Me disulfide, and bis(2-methyl-3-furyl)disulfide with higher concentrations were generally responsible for the pickle-like off-odor in Moutai-aroma type Baijiu.

Journal of Agricultural and Food Chemistry published new progress about Baijiu. 505-10-2 belongs to class alcohols-buliding-blocks, name is 3-(Methylthio)propan-1-ol, and the molecular formula is C4H10OS, Quality Control of 505-10-2.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Tang, Ke published the artcileAroma characteristics of Cabernet Sauvignon wines from Loess Plateau in China by QDA, Napping and GC-O analysis, Formula: C4H10OS, the main research area is Vitis wine aroma QDA Napping gas chromatog olfactometry China.

Abstract: Loess Plateau is a new rapidly developing wine region in China, but wine style from this region is rarely studied. The aroma typicalies and differences of Cabernet Sauvignon wines between Loess Plateau and other three main regions (Shandong, Ningxia and Xinjiang) in China were comprehensively analyzed by Quant. Descriptive Anal. (QDA), Napping and Gas Chromatog.-Olfactometry (GC-O) anal. Results showed that differences existed between wines from Loess Plateau and other three regions in China based on their aroma characteristics. The results of QDA and Napping revealed that wines from Loess Plateau had richer fruity aroma, especially the typical hawthorn aroma. A similar result showed that the fruity compounds had higher flavor dilution factors in wines from Loess Plateau by aroma extract dilution anal. Identified by GC-O and gas chromatog.-mass spectrometric, Et butanoate, isoamyl formate and Bu acetate were key compounds for the fruity aroma of wines from Loess Plateau.

European Food Research and Technology published new progress about Baking. 505-10-2 belongs to class alcohols-buliding-blocks, name is 3-(Methylthio)propan-1-ol, and the molecular formula is C4H10OS, Formula: C4H10OS.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts

Fechir, Michael published the artcileMolecular Insights into the Contribution of Specialty Barley Malts to the Aroma of Bottom-Fermented Lager Beers, Category: alcohols-buliding-blocks, the main research area is specialty barley malt aroma bottom fermented lager beer; Hordeum vulgare; aroma extract dilution analysis (AEDA); odorant transfer; specialty barley malt beer; stable isotopically substituted odorants.

Specialty barley malts provide unique aroma characteristics to beer; however, the transfer of specialty malt odorants to beer has not yet been systematically studied. Therefore, three beers were brewed: (1) exclusively with kilned base barley malt, (2) with the addition of a caramel barley malt, and (3) with the addition of a roasted barley malt. Major odorants in the beers were identified by aroma extract dilution anal. followed by quantitation and calculation of odor activity values (OAVs). The caramel malt beer was characterized by outstandingly high OAVs for odorants such as (E)-β-damascenone, 2-acetyl-1-pyrroline, methionol, 2-ethyl-3,5-dimethylpyrazine, and 4-hydroxy-2,5-dimethylfuran-3(2H)-one, whereas the highest OAV for 2-methoxyphenol was obtained in the roasted malt beer. Quantifying odorants in the malts revealed that the direct transfer from malt to beer played only a minor role in the amount of malt odorants in the beers, suggesting a substantial formation from precursors and/or a release of encapsulated odorants during brewing.

Journal of Agricultural and Food Chemistry published new progress about Barley. 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

Senoussi, Asma published the artcileFormation and dynamics of aroma compounds during manufacturing-ripening of Bouhezza goat cheese, Recommanded Product: 3-(Methylthio)propan-1-ol, the main research area is Bouhezza goat cheese ripening aroma compound.

The aromatic profile development of Bouhezza goat cheese during manufacturing-ripening in traditional goatskin bags was assessed using solid-phase microextraction (SPME) and steam distillation (SD) coupled to gas chromatog.-olfactometry. Sixty different odor-active compounds (OACs) were revealed. The volatile profile of Bouhezza goat cheese changed during cheese ripening, but ester and terpene compounds dominated throughout manufacturing-ripening. During ripening the number of alcs., esters, heterocyclic compounds, ketones, sulphurs, terpenes and tiazole increased gradually. Cheese aroma results differed between the extraction methods; thiazole and sulphurs were better extracted by SPME, but heterocyclic compounds were exclusively extracted using SD. SD revealed a more complete volatile and aromatic profile of Bouhezza compared with SPME; however, the low level of common OACs showed that the methods are complementary to each other and SPME cannot be neglected. The application of different extraction methods helps to achieve a complete description of the aromatic profile of traditional cheeses.

International Dairy Journal published new progress about Cheese. 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

Wang, Zhuolin published the artcileCharacterization of aroma-active compounds in four yeast extracts using instrumental and sensory techniques, Formula: C4H10OS, the main research area is aroma yeast extract olfactometry GC; aroma-active compounds; gas chromatography−olfactometry; odor activity value; partial least-squares regression; solvent-assisted flavor evaporation; yeast extracts.

Gas chromatog.-olfactometry coupled with sensory anal. and partial least-squares regression (PLSR) anal. led to the identification of the odorants responsible for the different flavors of four yeast extracts Sensory anal. showed that LA00L had an intense sulfurous attribute, and LA00 was characterized by fatty and green notes, FA31 exhibited the floral odor, while KA02 had strong phenolic, animal, fermented, roasted, and caramellic notes. A total of 37 key aroma compounds with odor activity values greater than 1 were determined 2,4-Di-tert-butylphenol and methional were the most potent aroma compounds In addition, the key aroma compounds in LA00L were nonanal, di-Me disulfide, and γ-decalactone. Octanal, di-Me disulfide, and benzeneacetaldehyde were the key aroma compounds in LA00. In FA31, styrene, benzeneacetaldehyde, and acetophenone were the key aroma compounds, while indole, 2-methoxyphenol, benzeneacetaldehyde, and p-cresol contributed significantly to the aroma of KA02. PLSR showed that p-cresol and indole were significantly responsible for the phenolic and animal notes inducing the off-flavor (yeasty odor) of yeasty extracts More significantly, indole was first reported to have an important effect on yeasty odor.

Journal of Agricultural and Food Chemistry published new progress about Flavor. 505-10-2 belongs to class alcohols-buliding-blocks, name is 3-(Methylthio)propan-1-ol, and the molecular formula is C4H10OS, Formula: C4H10OS.

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts