This study analyzed the effects of different nitrogen sources in substrate composition on the growth of Pleurotus ostreatus, as well as the subsequent changes in flavor and antioxidant activity. The T2, composed of poplar sawdust, beet pulp, cotton seed dregs, and cotton seed coat in a ratio of 40:20:20:20, exhibited the highest yield at 156.6 g. The total polyphenol content and ABTS and DPPH radical scavenging activities were 8.25 mg GAE/g, 70%, and 49%, respectively, showing higher radical scavenging activity compared to the Control and T1. Additionally, varying nitrogen content resulted in distinct aroma patterns and is presumed to influence taste profiles such as sourness, umami, and saltiness.
The purpose of this study was to investigate the volatile flavor compounds of Ligularia stenocephala and Ligularia fischeri, edible wild plants. The volatile flavor compounds were isolated by the simultaneous distillation extraction method and analyzed by GC-MSD (gas chromatography-mass selective detector). Forty-eight volatile flavor compounds were identified in the extracts from L. stenocephala and the major compounds were sabinene, cis-ocimene, trans-caryophyllene, and β-elemene. Fifty-one volatile flavor compounds were identified in the extracts from L. fischeri and the major compounds were α-pinene, germacrene-D, transcaryophyllene, endo-1-bourbonanol and 1-limonene. The common volatile flavor compounds between two plants were transcaryophyllene, sabinene, β-elemene and β-cubebene etc. However, α-phellendrene and myrcene were identified in L. stenocephala, but were not identified in L. fischeri. However α-pinene, germacrene-D and limonene were identified in L. fischeri but were not identified in L. stenocephala.
This study analyzed the nutritional composition properties of soybeans and the antioxidants, isoflavones, organic acids, and volatile flavor compounds of fermented black soybean products (FBSP). After 24 hours of fermentation, the range of water uptake ratio was 129.00-131.30%, respectively. Total polyphenols content and DPPH and ABTS radical scavenging activity were higher in Cheongja-3 FBSP, flavonoids in Socheongja, while DPPH and ABTS radical scavenging activities were similar in Cheongja-3 FBSP. Isoflavone contents of aglycones (daidzein, genistein, and glycitein) in Cheongja-4 FBSP increased up to 41.97 μg/g. The rank order of primary organic acids was citric acid > fumaric acid > acetic acid > lactic acid, with Cheongja-3 FBSP being the highest. This study identified a total of 34 volatile aroma-compounds, including seven alcohols, seven acids, seven ketones, five phenols, two esters, one furan, four pyrazines, and one miscellaneous. The result could be applied to determine the suitability of cultivars and the quality of the process used for fermented soybean products.
The purpose of this study was to investigate the quality characteristics and volatile flavor components of Doonuri wine, using freeze concentration. The freeze concentration can increase the sugar concentration in grape juice by reducing its water content. In this study, after eight days od fermentation, the alcohol content of freeze-concentrated Doonuri wines was 12.5~14.1%. The pH of the wine was 3.42~3.50 and the total acid content was 0.68~0.94 g/100 mL, respectively. The brghtness of freeze-concentrated Doonuri wines was 19.28~54.42, the redness was 41.98~49.58, and the yellowness was 36.16~42.36. The organic acid analysis of Doonuri wines was that most of the organic acids contain tartaric and malic acid. By using freeze concentration with grape juice, significant increase in the total polyphenol content of Doonuri wines was 122.40~137.26 mg/mL, the total anthocyanin content was 117.06~ 118.40 mg/L and the tannic acid content was 66.23~83.70 mg%. In GC/MS analysis, the volatile flavor component analysis of Doonuri wines identified six alcohols, five esters, two ketones, on acid, two alkanes, and four other compounds.
In this study, we analyzed the nutritional composition properties of soybeans and the organic acids, amino acids and volatile flavor compounds of fermented soybean products. We used five soybean cultivars including Pyeongwon, Jinpung, Saedanbaek, Saeolkong and Cheonga for this experiment. Physicochemical analysis of soybeans, showed that the cured protein and fat contents were 35.12∼45.12 and 14.26∼20.14%, respectively. The rank order of major organic acids was lactic acid > acetic acid > fumaric acid, with Saedanbaek being the highest. Total amino acid content of the samples was 358.12∼657.28 mg/100 g, and glutamic acid, alanine, cysteine, valine, leucine, histidine and arginine were the major amino acids. We identified a total of 34 volatile aroma-compounds, including 7 alcohols, 7 acids, 7 ketones, 5 phenols, 2 esters, 1 furan, 4 pyrazines, and 1 miscellaneous compounds. As a result of this, could be applied to determine the suitability of cultivars and the quality for the process of the fermented soybean products.
식품의 향기성분은 다른 주성분에 비해 미량으로 존재하지만, 풍미를 반영하는 중요한 지표로 색, 조직감과 더불어 식품의 품질을 평가하는 중요한 요소이다. 본 연구에는 SPME 추출방법을 이용하여 산고 품종 배주스의 휘발성 향기성분을 추출하여 GC-MS로 향기성분을 확인 및 동정하였다. 총 22종에 향기 화합물이 분리동정되었고, ester류 7종, aldehyde류 9종, ketone류 2종, alcohol류 1종, acid류 1종, furan류 1종 그리고 함황화합물 1종으로 구성되었다. 이 중에서 ethyl acetate, hexanal, ethyl hexanoate, ethyl 3-(methylthio)-2-propenoate, ethyl octanoate and 2-hexenal이 배주스의 주요 향기성분으로 간주되었다. 특히, ethyl acetate의 함량이 13.36~19.60 μg/kg으로 가장 높은 것으로 검출되어 전체 향기성분의 절반 이상을 차지하였다. 또한, 향기성분의 변화를 억제 및 추출능력 향상을 위해 분석용 시료에서 포화 염화칼슘 용액을 첨가하여 그 효과를 검증하였고, 착즙직후 바로 염용액으로 처리한 배주스에서 aldehyde류, acid류, furans류 및 s-compounds류은 유의적인 많은 것을 확인하였다. 본 연구결과는 배 원물의 품질저하 혹은 가공으로 발생한 향기 변화를 보완하는데 기초자료로 활용이 가능하며, 배주스를 활용한 가공식품의 향 품질을 향상시켜 고부가가치 가공식품을 개발하여 배의 소비 촉진에 기여할 수 있는 것으로 기대된다.
The physicochemical properties of dry wine produced from domestic kiwifruit according to production year from 2008 to 2012 were studied. pHs of wine were from 4.02(F wine, production year 2009, sterilized) to 4.11(D wine, production year 2012, non-sterilized) and their acidities were lowest in D wine(0.79%) and highest in F wine(1.18%). All the wines have the same soluble solids of 8 °brix and 12% of alcohol, respectively. The reducing sugar was lowest in A wine(production year 2008, non-sterilized) and highest in D wine. The lactic acid was detected as a main organic acid and the free sugar was detected only fructose. As main flavor components, ethyl acetate and 1-pentanol were detected and their sum of 80~90% and a small amount of phenylethyl alcohol which providing rose-like aroma was also detected. The contents of soluble phenolics were highest in D wine(1.07 g/L) and lowest in C wine(0.80 g/L), corresponding to the antioxidant activity was highest found in D wine according to their soluble phenolic contents.
The influence of aging on the flavor precursors and volatile compounds of top round beef was studied. The concentrations of free amino acids, nucleotides, creatine, dipeptides, and volatile compounds were measured after top round from Hanwoo was aged at 4℃ for 21 days. The amount of free amino acids in top round significantly increased with the increase of aging period. There was no effect of aging on the concentrations of adenosine monophosphate or inosine in top round. The inosine monophosphate content of top round significantly decreased with age, while the hypoxanthine content increased. The concentrations of creatine, carnosine, and anserine in top round were not influenced by aging. In total, 24 volatile compound were identified in aged, cooked top round. Of these, the quantities of aldehydes (propanal, pentanal, hexanal, heptanal, octanal, and nonanal), hydrocarbons (pentane and octane), 2-butanone, ethyl acetate, and pyridines (4-ethynyl-pyridine and 4-acetyl-pyridine) significantly increased after aging. We conclude that the flavor of top round can be improved by aging.
The volatile flavor compounds of wild and cultivated chamnamul (Pimpinella brachycarpa), an aromatic medicinal plant, were isolated via the simultaneous distillation extractin method and analyzed by GC and GC-MSD. From the oils of the wild chamnamul, 56 volatile flavor compounds were identified, and the major constituents were found to be sabinene (58.37 ppm) and germacrene-D (45.73 ppm). From the oils of cultivated chamnamul, 36 volatile flavor compounds were identified--the major constituents were identified as ß-selinene (38.41 ppm) and myrcene (12.76 ppm).
The volatile flavor compounds of Saussurea lappa C.B. Clarke, a perennial, aromatic and medicinal herbaceous plant of the Asteraceae family, were isolated by the hydro distillation extraction method using a Clevenger-type apparatus, and analyzed by gas chromatography (GC) and gas chromatography-mass spectrometry (GC/MS). The plant yielded a light yellow colored oil (0.02%, v/w). From S. lappa C.B. Clarke root oil, sixty-three volatile flavor compounds were tentatively identified, among which sesquiterpene was predominant (2 1.70%). The identified compounds of the root oil constituted 87 .47% of the total peak area. From the constituents making up more than 5% of the volatile flavor components, a long-chain aldehyde, (7Z, 10Z, 13Z)-7, 1 0, 13-hexadecatrienal, was the most abundant volatile flavor compound (2 1.20%), followed by dehydrocostuslactone (10 .30%) belonging to sesquiterpene lactone, valerenol (5.30%) and vulgarol B (5.06%).
참나물의 잎과 줄기부위에서 가장 많이 함유하고 있는 무기 성분은 K, P, Ca, Mg 순이었으며 잎 부위가 줄기부위보다 Ca, P, Mg함유량이 약 4배 정도 많았다 전자코를 이용한 휘발성 향기성분 패턴은 신선한 참나물의 경우 제1주성분 값이 +값을, 음건한 건조 참나물은 - 값을 나타내어서 신선한 참나물과 건조한 참나물 사이에는 뚜렷한 차이를 보였고 건조방법에 따른 시료간의 구별이 가능하였다. SDE법에 의해 신선한 참나물은 aldehydes 3종, alcohols 9종, ester 4종, hydrocarbons 5종, terpen hydrocarbons 34종, ketone 1종, 기타 2종의 총 58 종이 확인되었고, 음건한 참나물은 aldehydes 4종, alcohols 7종, hydrocarbon 1종, terpen hydrocarbons 17종, ketone 1종, 기타 1종의 총 31종이 확인되었다. SDE법에 의한 신선, 음건한 참나물 모두 α-selinene(37.89%, 12.59%)가 가장 많이 확인되었는데 신선할 때보다 음건한 경우 휘발성향기성분의 peak수와 peak area%가 적었다. CAR/PDMS fiber HS-SPME법에 의해 34종이 확인되었는데 aldehydes 2종, alcohols 2종, hydrocarbons 7종, terpen hydrocarbons 23종이며 myrcene(15.50%)가 가장 많이 확인되었다. PDMS fiber HS-SPME법에 의해 aldehydes 1종, alcohols 1종, hydrocarbons 2종, terpen hydrocarbons 17종으로 총 21종이 확인되었고 germacrene D(16.84%)가 가장 많았다. SDE법에 의한 경우가 SPME법보다 향기성분의 종류와 양이 많았고 HS-SPME법의 경우 CAR/PDMS fiber가 PDMS fiber 보다 더 많은 종류의 향기가 확인되었다.
솔잎의 향기성분을 용매분획과 수증기증류법으로 분석한 결과는 다음과 같다. 솔잎을 hexane, ethyl acetate 및 ethanol로 연속적으로 추출하였을 때, 29종의 향기성분이 분리, 확인되었고, 주요 성분은 hydrocarbon이었다. hexane 추출에 의한 솔잎의 주요 향기성분은 α-pinene, β-thujene, trans-caryophyllene, β-cubebene 순으로 높게 나타났다. 솔잎을 hexane으로 추출한 잔사에 ethyl acetate를 가하여 향기 성분을 분석하였을 경우 추출된 향기성분은 α-cubebene, 3,6,9,12,15-petaoxanonadecan-1-ol, camphene, 순으로 높았고, 솔잎을 hexane 및 ethyl cetate로 추출한 잔사에 ethanol을 가하여 분석한 경우는 β-D4-tetrahydropyran, γ-cadinene, 3-ethyl-1,4-hexadiene, α-cubebene등이 주성분이었다. 솔잎을 수증기 증류하여 향기성분을 분석한 결과 44종의 성분이 분리, 확인되었고, hydrocarbon류가 주성분이었다. β-cubebene, trans-caryophyllene, 2-hexenal, T-muurolol, δ-cadinene 순이었다. 수증기 증류법에 의한 방법으로 추출 하였을 때 용매분획 추출시 보다 더 많은 성분이 검색되었고, 용매분획에 따라 추출되는 향기성분의 함량과 조성은 차이가 있었으며, 추출방법에 따라서도 향 기성분의 조성비가 다르게 나타났다.
전통안동식혜를 제조하여 5℃에서 보관하면서 GC와 GC-MS를 이용하여 향기성분의 원인 물질을 분석, 동정하였고 맛성분의 원인물질인 유기산의 변화를 검토하였다. 안동식혜의 주요 향기성분으로는 camphene, sabinene, 1-(1.5-dimethyl-4-hexyl)-4-methyl-benzene, α-zingibirene, farnesene, 2.6-b is-(1.1-dimethylethyl)-4-methyl-phenol, β-sesquiphellandrene, calalene, tetradecanoic acid, hexadecanoic acid 및 9.12-octadecanoic acid 등을 들 수 있었다. 안동식혜의 숙성 및 저장중에 있어서 생성된 향기성분은 2.4-undecadienal, 1H-indole, 2.4-decadienal, isoterpinolene 및 D-nerdiol 5종류이었다. 비휘발성 유기산 함량의 변화를 보면 저장 초기에는 젖산 0.49 mg/100 g이던 것이 19.37 mg/100 g으로 증가하였고 다른 유기산들의 함량 변화는 거의 없었다. 안동식혜의 숙성 및 저장 기간중의 pH의 변화는 차차 감소하였고 산도는 차차 증가하여 저장 6일째 0.41이었다.
This study was conducted to compare the volatile flavor compounds of Artemisia annua L. after extraction by simultaneous steam distillation extraction (SDE) and solid-phase micro extraction (SPME) followed by gas chromatography-mass spectrometry (GC-MS) analysis. Via SDE and SPME processes, 79 (1,254.00 mg/kg) and 39 (488.74 mg/kg) compounds were identified respectively. The compounds extracted by SDE included 27 alcohols, 13 aldehydes, 22 hydrocarbons, 3 esters, 12 ketones, 1 oxide and 1 N-containing compound, on the other hand, using the SPME method, 7 alcohols, 5 aldehydes, 1 ester, 18 hydrocarbons, 7 ketones, and 1 oxide were extracted. The major volatile flavor compounds of Artemisia annua L. isolated by the two methods were caryophyllene oxide, -caryophyllene, camphor, -selinene, -muurolene, 1,8-cineol, (E)-pinocarveol and pinocarvone. β β γ The sesquiterpene named caryophyllene oxide was the most abundant volatile flavor compound with relative contents of 234.16 mg/kg and 195.44 mg/kg obtained by the SDE and SPME methods, respectively. Among the identified volatiles, sabinene, β-pinene, α-terpinene, γ-terpinene, yomogi alcohol, myrtenol, (Z)-nerolidol, p-cymen-8-ol and eugenol were detected by the SDE method only while (E)-anethole and α-cubebene were detected by the SPME method only. This study confirmed that the composition and contents of the volatile flavor compounds vary between different extraction methods. More volatile flavor compounds were identified using the SDE method than the SPME method.
This study was conducted to confirm the usefulness of essential oil components in yuzu and kumquat cultivated in Korea for comparison with those in lemon and lime. The volatile flavor compounds in citrus fruits (yuzu, kumquat, lemon and lime) were extracted for 3 h with 100 mL redistilled n-pentane/diethylether (1:1, v/v) mixture, using a simultaneous steam distillation and extraction apparatus (SDE). The volatile flavor compositions of the samples were analyzed by gas chromatography-mass spectrometry (GC-MS). The aroma compounds analyzed were 104 (3,713.02 mg/kg) in yuzu, 87 (621.71 mg/kg) in kumquat 103 (3,024.69 mg/kg) in lemon and 106 (2,209.16 mg/kg) in lime. Limonene was a major volatile flavor compound in four citrus fruits. The peak area of limonene was 35.03% in yuzu, 63.82% in kumquat, 40.35% in lemon, and 25.06% in lime. In addition to limonene, the major volatile flavor compounds were γ-terpinene, linalool, β-myrcene, (E)-β-farnesene, α-pinene and β-pinene in yuzu, and β-myrcene, α-pinene, (Z)-limonene oxide, (E)-limonene oxide, geranyl acetate and limonen-10-yl acetate in kumquat. Furthermore, γ-terpinene, β-pinene, β-myrcene, geranyl acetate, neryl acetate and (Z)-β-bisabolene in lemon and γ-terpinene, β-pinene, (Z)-β-bisabolene, neral, geranial and neryl acetate in lime were also detected. As a result, it was confirmed that the composition of volatile flavor compounds in four citrus fruits was different. Also, yuzu and kumquat are judged to be worthy of use alternatives for lemon and lime widely used in the fragrance industry.
Background : Cynanchum wilfordii and Cynanchum auriculatum belong to the Asclepiadaceae family and appear morphologically similar. In order to discriminate them, it is needed to find the presence of sap and the leaf shapes: C. auriculatum has a blade ovate leaf comparing to C. wilfordii. However, in the herbal medicine market, they have been handled as cut and dried roots. Due to their similar morphology, it is limited to distinguish the roots of C. wilfordii and C. auriculatum. Recently in Korea, it has been a critical issue to misuse these two roots in the herbal market and food industry. Thus, it is required to establish a robust tool for the discrimination and quality control of them. Methods and Results : To separation and characterization of flavor compounds, C. wilfordii and C. auriculatum samples were analyzed by head space solid phase micro extraction (HSS) fiber coupled with gas chromatography-mass spectrometry using Rtx-5MS (30 m x 0.25 mm x 0.25 μm) column. As a result, We have identified compounds of a few hundred in aliphatic aldehydes and aliphatic alcohols, alkenes and acids, aromatic compounds, aromatic compounds containing nitrogen & sulfur, etc,. In particular, The aliphatic and aromatic compounds had been clearly separated on the second dimensional direction by using two-dimensional GC. Conclusion : The volatile flavor compounds of C. wilfordii and C. auriculatum could easily analyzed without pre-treatment with improved resolution and sensitivity using HSS-GCxGC-TOFMS. We have identified compounds of a few hundred in C. wilfordii and C. auriculatum sample. And It was more accurately qualitative confirmed with separation of GCxGC and TSD. We have confirmed the PCA and PLS-DA Plot that was classified depending on C. wilfordii and C. auriculatum through multivariate statistical analysis of the identified flavor compounds.
본 연구는 정치발효에 의한 국산 및 일본산 현미식초의 품질비교를 실시하였다. 국내산 현미식초의 주요 유리아미노산은 proline, glutamic acid와 phenylalanine인 반면, 일본산 현미식초는 proline, valine, phenylalanine, lysine, -aminobutyric acid, alanine과 isoleucine이었다. -aminobutyric acid (GABA)와 총아미노산 함량(3686.37~4212.2
Volatile flavor compounds from perilla leaves were extracted and analyzed with different methods, head-space analysis (HS), simultaneous steam distillation and extraction (SDE) , and solvent extraction (SE), and to compare their efficiencies for quick analysis. Over 30 volatile compounds were isolated and 28 compounds were identified by GC/MSD. Major compound was perillaketone showing the compositions of which were 92% in SDE method, 86% in headspace analysis, and 62% in solvent extraction method. For quick evaluation of leaf flavor in perilla, it was desirable because the headspace analysis method had a shorter analyzing time and smaller sample amount than the other methods.
To enhance the utilization of garlic shoots as food material, the nutritional and volatile flavor com pounds were investigated for garlic shoots, both cold and warm region type garlic shoots. Proximate composition of cold and warm region type was as follows, respectively; crude protein 2%, crude lipid 0.4%, crude ash 1.1% and 1.5%, crude fiber 1.3% and 1.5%. The major fatty acids of 2 varieties of garlic shoots were linoleic, palmitic and linolenic acid, and their desaturation ratio of them was comparatively high, showing 73.7 and 66.8%, respectively. Free sugars were composed of glucose, sucrose, fructose, arabinose and sorbitol. In the total amino acid analysis, the major amino acids were glutamic acid and aspartic acid. The volatile flavor compounds of fresh garlic shoots extracted by hexane and Likens-Nikerson steam distillation apparatus were identified to be methyl-2-propenyl disulfide, diallyl disufide, propenyl propyl disulfide, di-2-propyl-trisulfide, 2-vinyl-1,3-dithiane, and 2-vinyl-4H-1,3-dithiin. Hexane was more effective than steam distillation for extraction of volatile components of garlic shoots.