Fatty Acid Composition in each Structural Part of Soybean Seed and Sprout

Krishna Hari Dhakal,Yeon-Shin Jeong,Jeong-Dong Lee,백인열,하태정,황영현 한국작물학회 2009 Journal of crop science and biotechnology Vol.12 No.2

Fatty acid composition and C18:2:C18:3 of soybean seed and sprout is important for soy-industries to manufacture quality products. Six soybean varieties were analyzed by gas chromatography to determine fatty acid composition and linoleic to linolenic acid ratio (C18:2:C18:3) in seed, sprout, and their structural parts. In the case of whole seed and its structural parts, significant variation in fatty acid composition and C18:2:C18:3 were observed between varieties except palmitic acid (C16:0), while all the parameters were significantly different for seed parts. Significant interactions of variety with seed parts were observed for oleic acid (C18:1), C18:2 and C18:2:C18:3. The highest saturated fatty acid, C18:1 and polyunsaturated fatty acid were recorded in seed coat, cotyledon, and seed axis, respectively. The lowest C18:2:C18:3 was found in seed axis. In the case of sprout study, variety had significant effect on all the parameters observed for whole sprout, cotyledon, root, and except C18:3 for hypocotyl. Culture days had significant effect on C16:0, C18:2 and C18:3 in whole sprouts, while only on 18:3 and C18:2:C18:3 in cotyledon. For hypocotyl, culture days had significant effect on 18:1, 18:2 and 18:2:18:3, however, C16:0, C18:1, C18:3, and C18:2:C18:3 were significantly different in root. In sprout, days and variety interacted significantly for C16:0, C18:3 and C18:2:C18:3, and C18:1, C18:2, C18:3, and C18:2:C18:3, respectively for whole, cotyledon, and root. The significantly lowest C18:2:C18:3 (1.1) was observed in hypocotyl and root of Hwangkeumkong in 5 days. Knowledge of fatty acid composition and C18:2:C18:3 of seed, sprout, and their parts could be applicable for oil and other soy-food industries to make quality products. Fatty acid composition and C18:2:C18:3 of soybean seed and sprout is important for soy-industries to manufacture quality products. Six soybean varieties were analyzed by gas chromatography to determine fatty acid composition and linoleic to linolenic acid ratio (C18:2:C18:3) in seed, sprout, and their structural parts. In the case of whole seed and its structural parts, significant variation in fatty acid composition and C18:2:C18:3 were observed between varieties except palmitic acid (C16:0), while all the parameters were significantly different for seed parts. Significant interactions of variety with seed parts were observed for oleic acid (C18:1), C18:2 and C18:2:C18:3. The highest saturated fatty acid, C18:1 and polyunsaturated fatty acid were recorded in seed coat, cotyledon, and seed axis, respectively. The lowest C18:2:C18:3 was found in seed axis. In the case of sprout study, variety had significant effect on all the parameters observed for whole sprout, cotyledon, root, and except C18:3 for hypocotyl. Culture days had significant effect on C16:0, C18:2 and C18:3 in whole sprouts, while only on 18:3 and C18:2:C18:3 in cotyledon. For hypocotyl, culture days had significant effect on 18:1, 18:2 and 18:2:18:3, however, C16:0, C18:1, C18:3, and C18:2:C18:3 were significantly different in root. In sprout, days and variety interacted significantly for C16:0, C18:3 and C18:2:C18:3, and C18:1, C18:2, C18:3, and C18:2:C18:3, respectively for whole, cotyledon, and root. The significantly lowest C18:2:C18:3 (1.1) was observed in hypocotyl and root of Hwangkeumkong in 5 days. Knowledge of fatty acid composition and C18:2:C18:3 of seed, sprout, and their parts could be applicable for oil and other soy-food industries to make quality products.

Distribution of Fatty Acids in Newly Developed Tissues of Soybean Seedlings

Krishna Hari Dhakal,Yeon Shin Jeong,Tae Joung Ha,In Youl Baek,Young Keun Yeo,Young Hyun Hwang 한국육종학회 2011 한국육종학회지 Vol.43 No.1

The objective of this study was to determine the fatty acid composition of newly developed tissues of germinated soybean seeds. Five soybean accessions with varied fatty acid composition were allowed to germinate in sand under greenhouse conditions. Seedlings were picked up after 4, 6, 8, 10 and 12 days of germination and freeze dried. The fatty acid composition of the newly developed tissues was analyzed by gas chromatography. Significant variation in fatty acid composition was observed between accessions, days of germination, and variety x day of germination in whole and the cotyledons. In the case of newly developed five tissues, significant variation in fatty acid composition were observed between days of germination except oleic acid for root, hypocotyl and epicotyl stem and except stearic acid for hypocotyl and unifoliate leaves while all the parameters were significantly different for accession. Significant interactions of accession and days of germination were observed for palmitic, linoleic and linolenic acid in all tissues; only for oleic acid in hypocotyl, epicotyl and unifoliate leaves; and only for stearic acid in root, hypocotyl, epicotyl and unifoliate leaves. During germination, the fatty acid composition of newly developed tissues changed dramatically but whole seedlings and cotyledons changed slightly. These tissues contained five major fatty acids as found in original seeds, but compositions were totally different from that of the seed: higher in palmitic, stearic and linolenic acid and lower in oleic and linoleic acid. New tissues conserved their fatty acid compositions regardless of genotypic variation in the original seeds.

Selection for soyabeans with high and environmentally stable lutein concentrations

Dhakal, Krishna Hari,Choung, Myoung-Gun,Hwang, Young-Sun,Fritschi, Felix B.,Shannon, J. Grover,Lee, Jeong-Dong Cambridge University Press 2014 Plant genetic resources Vol.12 No.1

<P>Lutein has significant nutritional benefits for human health. Therefore, enhancing soybean lutein concentrations is an important breeding objective. However, selection for soybeans with high and environmentally stable lutein concentrations has been limited. The objectives of this study were to select soybeans with high seed lutein concentrations and to determine the stability of lutein concentrations across environments. A total of 314 genotypes were screened and 18 genotypes with high lutein concentrations and five genotypes with low lutein concentrations were selected for further examination. These 23 genotypes and two check varieties were evaluated under six environments (two planting dates for 2 years at one location and two planting dates for 1 year at another location). Lutein concentrations were influenced by genotype, environment and genotype × environment interactions. Genotypes with late maturity and low lutein concentrations were more stable than those with early maturity and high concentrations. Early (May) planting resulted in greater lutein concentrations than late (June) planting. Among the genotypes evaluated, PI603423B (7.7 μg/g) and PI89772 (5.8 μg/g) had the greatest mean lutein concentrations and exhibited medium and high stability across the six environments, respectively. Thus, these genotypes may be useful for breeding soybeans with high and stable seed lutein concentrations.</P>

Fatty Acid Composition in each Structural Part of Soybean Seed and Sprout

Dhakal, Krishna Hari,Jeong, Yeon-Shin,Lee, Jeong-Dong,Baek, In-Youl,Ha, Tae-Joung,Hwang, Young-Hyun 한국작물학회 2009 Journal of crop science and biotechnology Vol.12 No.2

Fatty acid composition and $C_{18:2}:C_{18:3}$ of soybean seed and sprout is important for soy-industries to manufacture quality products. Six soybean varieties were analyzed by gas chromatography to determine fatty acid composition and linoleic to linolenic acid ratio ($C_{18:2}:C_{18:3}$) in seed, sprout, and their structural parts. In the case of whole seed and its structural parts, significant variation in fatty acid composition and $C_{18:2}:C_{18:3}$ were observed between varieties except palmitic acid $(C_{16:0})$, while all the parameters were significantly different for seed parts. Significant interactions of variety with seed parts were observed for oleic acid $(C_{18:1})$, $C_{18:2}$ and $C_{18:2}:C_{18:3}$. The highest saturated fatty acid, $C_{18:1}$ and polyunsaturated fatty acid were recorded in seed coat, cotyledon, and seed axis, respectively. The lowest $C_{18:2}:C_{18:3}$ was found in seed axis. In the case of sprout study, variety had significant effect on all the parameters observed for whole sprout, cotyledon, root, and except $C_{18:3}$ for hypocotyl. Culture days had significant effect on $C_{16:0}$, $C_{18:2}$ and $C_{18:3}$ in whole sprouts, while only on $C_{18:3}$ and $C_{18:2}:C_{18:3}$ in cotyledon. For hypocotyl, culture days had significant effect on $C_{18:1}$, $C_{18:2}$ and $C_{18:2}:C_{18:3}$, however, $C_{16:0}$, $C_{18:1}$, $C_{18:3}$, and $C_{18:2}:C_{18:3}$ were significantly different in root. In sprout, days and variety interacted significantly for $C_{16:0}$, $C_{18:3}$ and $C_{18:2}:C_{18:3}$, and $C_{18:1}$, $C_{18:2}$, $C_{18:3}$, and $C_{18:2}:C_{18:3}$, respectively for whole, cotyledon, and root. The significantly lowest $C_{18:2}:C_{18:3}$ (1.1) was observed in hypocotyl and root of Hwangkeumkong in 5 days. Knowledge of fatty acid composition and $C_{18:2}:C_{18:3}$ of seed, sprout, and their parts could be applicable for oil and other soy-food industries to make quality products.

Composition of Oil and Fatty acid in Sprout and Wild Soybeans for Specific Food and Industrial Applications

Krishna Hari Dhakal,Yeon Shin Jeong,In Youl Baek,Nam Suk Kang,Young Keun Yeo,Young Hyun Hwang 한국육종학회 2006 한국육종학회지 Vol.38 No.4

Oil and fatty acid compositions of 1,429 germplasms including 1,121 cultivated soybeans for sprout production and 308wild soybeans were analyzed by the NIRS (Near Infrared Reflectance Spectrophotometer) method at Yeongnam AgriculturalResearch Institute, M

Variation in Fatty Acid Composition of Soybean Oil Among Korean and American Soybean Germplasms

Krishna Hari Dhakal,Yeon Shin Jeong,In Youl Baek,Nam Suk Kang,Young Keuu Yeo,Jeong Dong Lee,Sang Mo Kang,Young Hyun Hwang 한국육종학회 2007 한국육종학회지 Vol.39 No.1

Oil and fatty acid composition of 648 soybean germplasms of different categories including Korean and American source were analyzed by NIRS (Near Infrared Reflectance Spectrophotometer) method at Yeongnam Agricultural Research Institute, Milyang, Korea. A

콩 분말을 이용한 청국장 제조 기술 개발

정연신,Krishna Hari Dhakal,황영현 경북대학교 농업과학기술연구소 2011 慶北大農學誌 Vol.29 No.-

1. 원료 형태별 청국장의 발효시간에 따른 건물중은 콩, 환, 분말의 모든 원료형태에서 발효시간이 경과할수록 건물의 중량이 감소하는 경향을 보였다. 2. 원료 형태별 청국장의 발효시간에 따른 진의 길이 변화를 측정한 결과, 모든 원료 형태에서 발효시간이 경과할수록 진의 길이가 증가하는 경향을 보였으며, 48시간 이후에는 그 증가치가 완만함을 보였다. 태광콩을 콩의 형태로 발효하였을 때 진의 생성이 가장 많았고, 분말을 1cm의 두께로 발효하였을때 진이 거의 생성되지 않았다. 3. 원료 형태별 청국장의 발효시간에 따른 생균수의 변화를 측정한 결과, 콩 형태로 발효시켰을 경우 모든 품종에서 비슷한 수준의 생균수가 측정되었다. 환 형태로 발효시켰을 경우 12시간 이후에 생균수가 급격히 증가하다가 24시간 이후 증가치가 완만해졌다. 분말형태로 발효시켰을 경우 시간에 따라 경시적으로 증가하였다. 4. 원료 형태별 청국장의 발효시간에 따른 색도의 변화를 측정한 결과, 모든 원료 형태에서 발효시간이 경과할수록 명도는 흑색에 가까워졌고, 색상과 채도의 경우는 각각 적색과 황색을 띠는 쪽으로 변화하였다. 5. 원료 형태별 청국장의 발효시간에 따른 pH의 변화를 측정한 결과, 모든 원료 형태에서 발효시간이 경과할수록 알칼리성으로 변화하였다. 6. 원료 형태별 청국장의 발효시간에 따른 isoflavone 함량의 변화를 측정한 결과, 발효 후 48시간까지 isoflavone의 함량이 증가하다 감소하는 경향을 보였다. 7. 청국장을 건조온도를 달리하여 균의 재생능력을 실험해본 결과 동결건조를 하였을 때 가장 많은 수의 균이 존재하였다. 8. 분말 또는 분말 (환)의 형태로 청국장을 만들 경우 종자 이용 시 보다 청국장의 품질이 떨어졌으며 분말 (환)을 이용하여 경제적인 청국장 제조를 위해서는 더 많은 연구가 필요한 것으로 고려되어 진다. The possibility of making Cheongukjang by the use of soy-powder and pill type re-made from soy-powder was investigated. Some of experimental results obtained are summarized as follows; 1. Regardless of three different types for the source material of Cheonggukjang, soybean seed, soy-power, and pill, the dry weight of fermented Cheonggukjang showed continuously decreasing trends along with the time of fermentation applied. 2. In all type of source materials, the length of viscous substance during fermentation was increased along with the time of fermentation, and the rate of elongation was much reduced after 48hr of fermentation. Out of four soybean varieties tested, Taekwangkong produced longest viscous substance fermented in the type of soybean seed. No viscous substance was formed when the depth of soy-powder in the fermentation box was shallow, one centimeter. 3. Not much difference was observed in the number of microbes, Bacillus licheniformis B1, in all soybean varieties. The number was proportionally increased in the type of powder but it increased rapidly from 12 hour to 24 hour with low rate of increase thereafter in the pill type. 4. Along with the time of fermentation in all types, the color of Cheonggukjang changed from yellow to dull. At the same time, the tone of color and chroma changed into reddish and yellow, respectively. 5. Along with the time of fermentation in all types, pH of Cheonggukjang changed in alkali. 6. Along with the time of fermentation, the content of isoflavone in Cheonggukjang increased by 48hr but decreased thereafter. 7. In general, the quality of Cheonggukjang fermented in types of soy-powder and pill re-made from soy-powder was lower than that of soybean seed. More study is seemed to be needed to produce high quality Cheonggukjang by the use of soy-power.

콩나물의 asparagine 함량에 미치는 요인 구명

정연신,손태호,Krishna Hari Dhakal,이정동,황영현 경북대학교 농업과학기술연구소 2008 慶北大農學誌 Vol.26 No.-

알코올의 숙취해독에 뛰어난 효과가 있는 것으로 알려진 sparagine은 콩나물의 뿌리에 함량이 가장 많은 것으로 알려져 있다. 본 연구논문에서는 콩나물 뿌리 발생에 미치는 재배실의 온도, 일당 관수횟수, 재배일수 및 동일용기에 사용한 콩 량에 대한 영향을 조사하여 얻어진 연구결과를 요약하면 다음과 같다. 1. 아가통과 풍산나물콩의 수율은 재배일수에 따라 경시적으로 증가하였으며, 재배실 온도가 20℃에서 보다 30℃에서 높았으며, 콩나물의 수율은 5회 관수, 8일 재배시 가장 높았다. 2. 아가콩과 풍산나물콩의 콩나물 부위별 건물중의 비율은 자엽이 가장 많았고 뿌리가 가장 낮았으며, 재배실 온도가 20℃에서 보다 30℃에서 비율이 더 높았다. 3. 아가콩의 sparagine 함량은 재배실 온도 30℃에서 5회 관수 8일 재배한 하배축에서 18.9%로 가장 높게 나타났다. 4. 풍산나물콩의 sparagine 함량은 재배일수가 길수록, 재배온도가 높은 경우 높았으며, 하배축에서 가장 높았고, 30℃에서 2회 관수 8일 재배시 하배축에서 18.8%로 가장 높게 나타났다. 5. 아가콩은 300g, 풍산나물콩은 500g 치상시 수율이 가장 높았으며, 잔뿌리의 수는 아가콩과 풍산나물콩 모두 치상량이 증가함에 따라 증가하는 경향이었다. It is known that the content of asparagine, an excellent detoxifying substance of alcohols in human body, is the highest in the roots of soy-sprout. At the same time, it is inferred that soy-sprouts producing more roots are better for detoxifying. In this experiment, the effects of room temperatures on number of watering per day, and duration of soy-sprout culture were carefully investigated. Some of the results obtained are as follows; 1. The yield rate of soy-sprouts for Agakong and Pungsannamulkong was continuously increased up to 9 days. It was higher in room temperature of 30℃ than in 20℃ and was the highest at 8th day of culture with 5 times of watering per day. 2. The asparagine content in soy-sprouts of Agakong and Pungsannamulkong was the highest in cotyledon and the lowest in roots. This rate was higher in the room temperature of 20℃ than in 30℃. 3. The highest asparagine content of soy-sprout of Agakong was 18.9%, obtained in the room temperature of 30℃, cultivated for 8 days with 5 times of watering per day. 4. The highest asparagine content of Pungsannamulkong was 18.8%, obtained in hypocotyl cultivated in the room temperature of 30℃ for 8 days with the number of 2 times watering per day. 5. When an cultivation apparatus of 5 liters volume was used, the optimum seed amount for the highest yield rate was 300g for Agakong and 500g for Pungsannamulkong. At the same time, the number of lateral roots showed increasing tendency with more amounts of soybean seeds used.

재배 콩나물 저장 중 온도처리가 isoflavone 함량에 미치는 영향

정연신,이향미,Krishna Hari Dhakal,김용훈,이정동,신동현,황영현 경북대학교 농업과학기술연구소 2008 慶北大農學誌 Vol.26 No.-

콩나물로부터 고 isoflavone 함량의 콩 식품윈료를 얻고자 콩나물 재배 시 빛을 쪼여주고, 재배한 콩나물의 저장온도를 달리한 조건에서 isoflavone 함량변이 를 조사하였다. 공시 품종들의 7일 재배 후 저장하기 전 isoflavone함량은 아가 3호>아가 1호>아가 2호>아가 4호>장기콩>보석콩>은하콩>풍산나물콩 순이었는데 아가 3호의 isoflavone 함량은 4,619㎍/g이었다. 재배한 콩나물의 isoflavone 함량은 저장온도에 따라 품증별로 상이한 차이를 보였는데, 저장온도 6℃와 20℃에서 isoflavone함량이 높은 반면 저장온도 9℃와 30℃에서는 대부분 콩 품종들의 isoflavone 함량은 낮았다. 저장일수에 따른 isoflavone의 함량은 품종들 간에 일정한 경향이 없었으나 대부분의 품종들은 저장기간 3일 이내에 가장 높은 isoflavone 함량을 보였고, 아가 4호와 장기콩은 저장기간 5일에서도 높은 isoflavone의 함량을 보였다. 저장기간과 온도처리를 하여 재배한 콩나물의 isoflavone 함량을 높이고자 한 결과 아가 3호를 포함하여 공시한 8품종 중 4품종에서 20'C에서 하루 동안 저장했을 때 가장 높은 isoflavone의 함량을 나타내었다. 재배한 콩나물들 중 저장을 통해 가장 높은isoflavone의 함량을 보인 품종은 아가 3호로써 저장후의 isoflavone 함량은 11,705㎍/g이었다. 본 연구에서는 콩나물 저장기간 동안 수분공급이 지속적으로 이루어겼기 때문에 콩나물이 계속 성장한 것으로 생각된다. 따라서 저장기간 동안 온도처리를 달리하여 isoflavone의 함량을 증가시키는 보다 확실한 방법을 확립하기 위해서는 더 많은 연구가 이루어져야 할 것으로 생각되어진다. To obtain food materials of high isoflavone content from soy-sprouts, 8 soy-sprout varieties, Aga 1, Aga 2, Aga 3, Aga 4, Pungsannamulkong, Eunhakong, Jangkikong and Bosugkong, were grown into soy-sprouts for 7 days under light condition and stored for 5 days at 6 different temperatures; 3, 6, 9, 20, 30, and 40℃ in the dark. The isoflavone content of 7 days grown sprout varieties were highest in the order of Aga3>Aga 1>Aga 2>Aga 4>Jangkikong>Bosugkong>Eunhakong>Pungsannamulkong. The highest isoflavone content of Aga 3 was 4,619 ㎍/g. The isoflavone content of soy-sprouts showed much varietal differences depending on the storage temperatures. Comparative high isoflavone content was obtained at storage temperatures of 6℃ and 20℃ while most of varieties showed low isoflavone content at 9℃ and 30℃. No constant trend in isoflavone content for the tested varieties along with the days to storage but most of varieties showed the highest isoflavone content in 3 days of storage. On the contrary, Aga 4 and Jangkikong showed high isoflavone content even at 5 days of storage . The comparatively high isoflavone content for 4 varieties including of Aga 3 out of 8 varieties was obtained from the treatment of one day storage at 20℃. Out of all treatments, the highest isoflavone content was obtained from one day storage at 20℃ for Aga 3 and the content was as high as 11,705 f-㎍/g. In this experiment, soy-sprouts were believed to be made continuous growth during the storage because the sprouts were being dipped in water during the temperature treatment to protect soy-sprouts from drying. Thus, it is inferred that additional researches should be made to establish better method to increase isoflavone content in soy-sprouts during the storage.

Effects of Light treatment as an elicitor on the isoflavone content of germinated soybean seeds

Siviengkhek Phommalth,Krishna Hari Dhakal,Chang Ho Lee,Yeon Shin Jeong,Young Hyun Hwang 한국육종학회 2007 한국육종학회 학술발표회 발표요지 Vol.39 No.1