• Title/Summary/Keyword: soybean sprouts

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Effect of Grapefruit Seed Extract and Ascorbic Acid on the Spoilage Microorganisms and Keeping Quality of Soybean Sprouts (Grapefruit Seed Extract와 Ascorbic Acid의 혼합 처리가 콩나물 변패 미생물과 저장 품질에 미치는 영향)

  • 박우포;조성환;이동선
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.27 no.6
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    • pp.1086-1093
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    • 1998
  • The antimicrobial effect of mixed solutions of grapefruit seed extract(250ppm) and ascorbic acid(1%) on the spoilage microorganisms such as Staphylococcus epidermis, Escherichia coli, Pseudomonas syringae, Candida albicans and Corynebacterium xerosis isolated from the spoiled soybean sprouts were investigated. Cell wall and membrane were partially destroyed and the contents of the destroyed cell were exuded after treatment. Packages with 30 m cast polypropylene(CPP), 16 m polyolefin(RD 106) and 10 m high density polyethylene(HDPE) were applied for soybean sprouts dipped in mixed solutions respectively. Oxygen and carbon dioxide concentration inside packages were dependent on the kind of films during storage at 5oC. The antimicrobial activity of mixed solutions was maintained for 5 days at CPP package. Package with HDPE showed a severe browning than the others after 5 days. Ascorbic acid content of mixed solution treatment was higher than that of control for each package.

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Changes in Postharvest Respiration, Growth, and Vitamin C Content of Soybean Sprouts under Different Storage Temperature Conditions

  • Lee Young-Sang;Kim Yong-Ho
    • KOREAN JOURNAL OF CROP SCIENCE
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    • v.49 no.5
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    • pp.410-414
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    • 2004
  • To understand the postharvest characteristics of soybean sprouts, 5-day-old sprouts were harvested, packed in PE film, and stored at 4, 12, and $20^{\circ}C$ for up to 4 days. In addition, the sprout respiration rate was measured after storage at 4, 8, 12, 16, 20, and $24^{\circ}C$ for up to 20h. During the first day of storage at $20^{\circ}C$, the sprouts maintained temperature-dependent longitudinal growth, especially of hypocotyl length; hypocotyl and root grew 0.8cm and 0.2cm, respectively. The hypocotyl thickness decreased by 11, 13, and $18\%$ after 4 days of storage at 4, 12, and $20^{\circ}C$, respectively. No temperature-dependent differences in fresh weight, dry weight, or water content were found, despite decreases of $3\%$ over the 4 days of storage. A significant postharvest decrease of $50\%$ in vitamin C content was observed in the sprouts stored at $20^{\circ}C$ for 3days. Based on the $CO_2$ production rate, the soybean sprouts exhibited an increase in respiration in proportion to the storage temperature; sprouts stored at 8, 12, 16, 20 and $24^{\circ}C$ showed approximately 2, 5, 6, 11, and 17 times, respectively, than the respiration rate of sprouts stored at $4^{\circ}C$. These results indicate the importance of low temperature storage during market circulation for minimizing the postharvest morphological and nutritional degradation of soybean sprouts.

Studies on the Effects of Plant Growth Regulator on Growth and Nutrient Compositions in Soybean Sprout (식물성장조절제가 콩나물의 성장 및 성분에 미치는 영향에 관한 연구)

  • Lee, Sang-Hyo;Chung, Dong-Hyo
    • Applied Biological Chemistry
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    • v.25 no.2
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    • pp.75-82
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    • 1982
  • Soybean sprouts treated with growth regulators (IAA and BA) had considerably shorter roots than control. The weight and diameter of treated sprouts were increased by $10{\sim}20%$ and 40%, respectively, compared with control. Crude protein and fat contents of the treated soybean sprouts were higher than those of the control by $5{\sim}10%$ and 10%, respectively. Vitamin C contents of the treated soybean sprout were 38mg%, which corresponds to 70% more vitamin C. Soybean sprouts contained 16 amino acids and the treated sprouts contained more arginine, histidine, lysine and methionine than the control, but significantly less proline. Fatty acid compositions of the treated sprouts and the control were similar, and the ratio unsaturated/saturated fatty acids was about 4.4 in the treated and control sprouts.

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Changes of Soyasaponin Contents in Soybean Sprouts (콩나물 생육기간 중 사포닌 함량의 변화)

  • Chang, Seo-Young;Han, Sangjun
    • KOREAN JOURNAL OF CROP SCIENCE
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    • v.61 no.1
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    • pp.57-63
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    • 2016
  • Soyasaponin I, II, III and V contents were investigated in seed, cotyledons and sprouts of soybean (Glycine max (L.) Merill) subjected to germination over five days. High-performance liquid chromatography coupled with tandem mass spectrometric (HPLC-MS/MS) method was used to evaluate the content of soyasaponins. Soyasaponins contents were different according to the varieties. Germination of soybeans dramatically increased soyasaponin contents in soybean sprouts in a time-dependent manner. Cotyledons had a higher contents of soyasaponins compared to dried seed (p<0.05). After five days of germination, Soyasaponin I and II increased 10 times higher after germination. Soyasaponin I and II are major metabolites in cotyledons and hypocotyls. Soyasaponin III and V were also detected in seed and increased depended on the germination stage. Soyasaponin V was at its highest levels in the hypocotyl, almost 7 times higher than the initial content in soybean seeds. Therefore, the germination of soybean sprouts significantly increased soyasaponin content.

Characterization of Off-flavors from Film-Packed Soybean Sprouts (필름 포장된 콩나물의 유통 중 축적되는 이취의 종류 및 발생 특성)

  • Cho Kyoung-Shim;Kim Yong-Ho;Lee Young-Sang
    • KOREAN JOURNAL OF CROP SCIENCE
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    • v.51 no.3
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    • pp.220-226
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    • 2006
  • Soybean sprout is a traditional food and its market circulation as packed in a transparent film is increasing. To characterize the off-flavor produced from film-packed soybean sprouts, harvested soybean sprouts were stored at different temperature and oxygen conditions, and time-series changes in heads pace $O_2,\;CO_2$, ethanol (EtOH) concentrations as well as sensory off-flavor levels were measured. Lower temperature resulted in lower consumption of $O_2$, lower production of EtOH and less off-flavor. No off-flavors could be detected when atmospheric $O_2$ concentration was maintained over 4%, while alcoholic-flavor and off-flavor were initiated when $O_2$ decreased down to 2% and 1%, respectively. Under low $O_2$ conditions alcoholic-flavor following EtOH production preceeded prior to sensory off-flavor detection. Various aldehydes and fatty acids such as nonylaldehyde, decylaldehyde and stearic acid were identified by GC/MS from film-packed sprouts producing off-flavors. In conclusion to suppress off-flavor, soybean sprouts should be packed in a film which can control $O_2$ concentration over 2% and stored at low temperature around $4^{\circ}C$.

Effect of Presoaking Treatments on Growth and Rot of Soybean Sprouts (침지처리가 콩나물의 생육 및 부패에 미치는 영향)

  • Choi, Hee-Don;Kim, Sung-Soo;Kim, Kyung-Tack;Lee, Jin-Yeol;Park, Won-Mock
    • Korean Journal of Food Science and Technology
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    • v.32 no.3
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    • pp.584-589
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    • 2000
  • In order to inhibit rot of soybean sprouts, presoaking treatments of soybeans with various solutions were studied. Optimal soaking time was 20min and citric acid, chitosan, GFSE(Grapefruit seed extract) were more effective. Most of presoaking treatments decreased the rot ratio of soybeans considerably, and didn't decrease germination ratio of them compared to control. Particularly GFSE, chitosan and phosphate buffer were effective. Presoaking treatments besides ethanol showed increased weight and yield of soybean sprouts compared to control, and particularly chitosan treatment increased yield of 67%, weight of 6.9% and length of 9.5% of soybean sprouts compared to control. Presoaking treatments decreased total microbial count of soybeans and rot of soybean sprouts during cultivation.

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Antimutagenicity of Soybean Sprouts Cultured with Germanium (게르마늄 수용액으로 재배한 콩나물의 항돌연변이 효과)

  • 김은정;이경임;박건영
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.33 no.6
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    • pp.930-935
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    • 2004
  • This study was carried out to determine the antimutagenic effect of soybean sprouts cultured in water containing germanium by Ames test and SOS chromotest. Germanium significantly inhibited the mutagenicity induced by aflatoxin B$_1$ (AFB$_1$) in Salmonella typhimurium TA100 by Ames test, and 4-nitroquinoline-N-oxide (4-NQO) in SOS chromotest. Juice from germanium treated soybean sprouts (GTS) inhibited 57∼75% mutagenicity induced by AFB$_1$, N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) and 4-NQO compared with 20∼48% inhibition rate of control soybean sprouts (germanium non-treated soybean sprouts, GNTS) in the Ames test. Also, methanol extracts from GTS inhibited 65% mutagenicity induced by AFB$_1$ in Salmonella typhimurium TA100, and 51% mutagenicity by 4-NQO in SOS chromotest. Therefore, it suggests that GTS has strong potential antimutagenic effect.

Identification of Factors Controlling Expression of Purple Color in Hypocotyl of Soybean Sprouts (콩나물 재배 시 자색 배축 발현 요인 구명)

  • Choi, Man-Soo;Jeong, Namhee;Kim, Dool-Yi;Kim, Jae-Hyun;Jin, Mina;Chun, Jaebuhm;Moon, Jung-Kyung
    • KOREAN JOURNAL OF CROP SCIENCE
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    • v.63 no.1
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    • pp.41-47
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    • 2018
  • Soybean sprouts have good digestibility, high isoflavone content compared with soybean seeds, and large amounts of aspartic acid, which is effective in eliminating hangovers. However, the region between the cotyledon and hypocotyl in soybean sprouts appears purple, the product value of soybean sprouts reduces. To date, the scientific correlation among factors such as growth temperature, spray water temperature, and cultivation periods for soybean varieties related to purple color expression between the cotyledon and hypocotyl of soybean sprouts are unknown. The purpose of this study was to identify the factors regulating the expression of purple color between the cotyledon and hypocotyl of soybean sprouts. Of 15 Korean soybean varieties with purple color in the hypocotyls and flowers, 9 varieties, including Sowonkong, Wonhwang, Sinhwa, Eunhakong, Pungsannamulkong, Paldonamulkong, Kwangankong, Shingang, and Jangki showed purple color between the cotyledon and hypocotyl of sprouts. However, the remaining six cultivars, including Dachae, Myeongjunamulkong, Sobaeknamulkong, Sojinnamulkong, Anpyeong, and Jonam, did not show purple color. The proportion of soybean sprouts with purple hypocotyls was the lowest at $26^{\circ}C$ and there was no significant difference at the other three cultivation temperature conditions ($17^{\circ}C$, $20^{\circ}C$, and $23^{\circ}C$). Similar to the results of the cultivation temperature experiment at five different spray water temperatures ($10^{\circ}C$, $17^{\circ}C$, $20^{\circ}C$, $23^{\circ}C$, and $26^{\circ}C$), the proportion of soybean sprouts with purple hypocotyls was the highest at the lowest spray water temperature ($10^{\circ}C$), and lowest at the highest temperature. Additionally, there was no purple color expression in soybean sprout hypocotyls on the $3^{rd}$ day after soybean sprouting. However, the highest expression level was observed on the $4^{th}$ day. Then, on the $5^{th}$ day, the proportion of soybean sprouts with purple hypocotyls reduced significantly, compared with that on the $4^{th}$ day. The results showed that interaction among these factors under cultivation conditions was remarkably effective for the expression of purple color in hypocotyls under the dark condition. These results suggested that cultivation temperature and spray water temperature for purple color expression in soybean sprout hypocotyls are the most important factors in the sprout cultivation environment.

Changes in Quality of Soybean Sprouts Washed with Electrolyzed Water during Storage (전기분해수 처리에 따른 콩나물의 저장 중 품질변화)

  • Yoo, Jae-Yeol;Jang, Keum-Il
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.40 no.4
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    • pp.586-592
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    • 2011
  • The storage quality of soybean sprouts washed with various electrolyzed waters was investigated. The washing solutions consisted of tap water (TW), sodium hypochlorite electrolyzed water (SHEW), and slightly acidic electrolyzed water (SAEW). The number of bacteria on the soybean sprouts after 5 min of exposure to TW, SHEW, and SAEW resulted in >0.5, 2.0, and 2.0 log CFU/g reductions, respectively. At both $4^{\circ}C$ and $25^{\circ}C$, the number of bacteria, weight loss ratio, and b value rapidly increased, and pH and L value rapidly decreased in soybean sprouts washed with TW. Whereas, the number of bacteria, pH, weight loss ratio, and color slowly changed in the soybean sprouts washed with SHEW and SAEW. Consequently, these results indicate that washing with electrolyzed water is an effective means of maintaining the quality and enhancing the shelf-life of soybean sprouts; both SHEW and SAEW reduced bacterial growth without affecting the other properties of soybean sprouts during storage.

Volatile Flavor Components in Soybean Sprouts (콩나물의 향기 성분 분석)

  • Kim, Yong-Ho;Lee, Kyong-Ae;Kim, Hee-Seon
    • KOREAN JOURNAL OF CROP SCIENCE
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    • v.54 no.3
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    • pp.314-319
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    • 2009
  • The identification of volatile constituents in foods is important in creating flavor compounds to improve the flavor of foods. This study was conducted to identify the flavor compounds in soybean sprouts cultivated with 4 different types of soybean seeds. A total of 52 flavor compounds were identified and composed mainly of alcohols (16), aldehydes (17), ketones (10), acids (2), furans (2), and miscellaneous compounds (5). Sprouts cultivated with Dawonkong and Orialtae showed 46 flavor compounds whereas Pungsannamulkong and Nokchaekong was 49 and 50. In total flavor compounds contents, Orialtae was the highest (19.3 mg/kg RC) and followed by Pungsannamulkong (15.83 mg/kg RC), Dawonkong (13.2 mg/kg RC), and Nokchaekong (11.3 mg/kg RC) in that order. Two groups including alcohols and aldehydes were detected high amounts in which their ratio were analyzed 32% and 51% in total flavor contents, respectively. It may be responsible for flavor in soybean sprouts. In case each flavor compound content, 2-hydroxybenzaldehyde was detected the major compound and hexanol, 1-octen-3-ol, and hexanal that the main compounds in lipid oxidation of soybean products were identified the main volatile flavor compounds in soybean sprouts.