콩의 수량은 건물생산성에 비해 고온에 민감하게 반응하는 하는 형질로 알려져 있다. 따라서 본 연구는 등숙기 고온이 종실의 발달, 품질특성 및 수분흡수특성에 미치는 영향을 검토하기 위해 수행하였으며 그 결과를 요약하면 다음과같다.1. 등숙온도가 높을수록 백립중은 감소되었는데, 황금콩은 선유콩에 비해 감소폭이 컸고, 등숙기 지속적인 고온은 종실비대를 억제시켜 소립종의 비율이 증가될 뿐만 아니라 종피율을 감소시키는 것으로 나타났다.2. 등숙온도가 높을수록 지방 함량 및 C/N율이 감소되고,단백질 및 총당 함량이 증가되었으나 당의 조성으로볼 때 단당류와 이당류는 증가되고 올리고당류는 오히려 감소되는 것으로 나타나 고온은 동화물질의 축적을억제시키는 것으로 판단되었다.3. 고온에서 등숙된 콩은 침지초기에 부피 및 무게의 증가가 비교적 빠르게 이루어졌으나 침지시간이 경과됨에 따라 대조구에 비해 부피 및 무게증가율이 모두 낮게 나타났고, 황금콩은 선유콩에 비해 침지에 따른 부피증가율 및 무게증가율이 상대적으로 낮았다.4. 콩의 백립중과 종피율은 침지에 따른 종실의 부피 및무게증가율뿐만 아니라 용출액의 TDS와 EC에 영향을 미치는 주요 형질로 판단되었고, 단백질 함량과C/N율은 TDS 및 EC와 유의한 상관을 보였으나, 당함량은 부피증가율과 무게증가율뿐만 아니라 TDS 및EC와 상관이 인정되지 않았다.5. 따라서 등숙온도가 높을수록 종실에 동화물질의 축적이 불완전하게 이루어져 침지에 따른 가용성 고형물의용출량이 많아지고, 결과적으로 TDS 및 EC가 높아지는 것으로 판단되었다.

This study investigated the nutrients and anti-nutrients of produced resveratrol GM rice (Iksan-515, Iksan-526, Dongjin) that were cultivated Iksan and Suwon regions. Among the rice samples, Iksan-515 and Iksan-526 are produced resveratrol GM rice. Reveratrol is health-beneficial compound with strong antioxidant and antitumor activities. Red wine is believed to the main source of resveratrol in the human diet. Recent studies have associated resveratrol with the cardio-protective effect observed among people with moderate resveratrol consumption. Moreover, resveratrol has been possess chemoprotective activity. In present study, we determined the substantial equivalence between GM rice and seedling sort. We investigated the nutrients and anti-nutrients of produced resveratrol GM rice and analyzed nutrients including moisture, crude fat, ash, crude protein, fatty acids, amino acids and minerals. The results of this analysis showed equivalence between GM rice and non-GM rice. We determined phenolic compounds including naringenin, vallin and investigated 4 tocopherols (α-, β-, γ-, δ-tocopherol) and 4 tocotrienols (α-, β-, γ-, δ-tocotrienol). Among the all rice cultivars, they showed substancial equivalence between resveratrol GM rices and non-GM rice.

Soybean [Glycine max (L.) Merrill] is one of the world’s most major crops as not only an important source of oil and protein, but also secondary metabolites. Intake of soybean is associated with decreased risk of cardiovascular disease and osteoporosis, as well as cancer, including breast and colon cancers. Seventy soybeans germplasms collected from 4 different countries, America (6 varieties), China (15 varieties), Japan (16 varieties), and Korea (33 varieties), were distributed by Chungbuk National University (Cheongju, Chungbuk, Korea) and cultivated in Konkuk University farm. This study investigated the isoflavones in seventy soybeans according to 4 different origins (America, China, Japan and Korea). Between 4 different origins, Korea showed highest concentrations of total isoflavones (1292.6 ± 438.6 ㎍ g-1) and China showed the lowest concentrations of total isoflavones (843.8 ± 365.7 ㎍ g-1). The total isoflavone contents in soybean of America and China ranged from 572.3 ㎍ g-1 to 2001.9 ㎍ g-1 and from 275.8 ㎍ g-1 to 1521.8 ㎍ g-1, respectively. And the isoflavone contents of Japan and Korea ranged from 473.3 ㎍ g-1 to 2314.6 ㎍ g-1 and from 419.0 ㎍ g-1 to 3010.7 ㎍ g-1, respectively. Malonylgenistin (356.9 ± 158.8 ㎍ g-1) was the major isoflavones among 12 isoflavones. Specially, glycoside and malonylglycosides constituted 49.2 % and 45.3 % of total isoflavones in soybeans, respectively.

콩 관련 제품을 생산하는 과정에서 발생되는 부산물은 가축의 사료 및 퇴비 등에 이용되고 있으나 일부는 폐기물로처리되어 추가 비용 및 각종 환경오염을 유발하는 등 사회적인 문제점으로 지적되고 있다. 따라서 본 연구에서는 가공 부산물로 다량 발생되는 콩 배아를 활용하여 생리활성물질인 isoflavone과 soyasaponin을 동시에 분리하는 방법을개발하고자 실시하였다.1. 콩 배아 methanol 추출물을 preparative C18 column에 주입하고, 210 nm의 파장에서 0.5% 초산 용액 30%로부터100% acetonitrile까지 분당 15mL의 유속으로 53분간흘려주어 isoflavone과 soyasaponin 분획을 동시에 분리하였다.2. Preparative C18 column으로 분리된 isoflavone 및 soyasaponin분획은 동결건조시켜 isoflavone 분말 ISF-1과 soyasaponinSAP-1, SAP-2, SAP-3 및 SAP-4의 분말을 얻었다.3. Isoflavone 분획 ISF-1의 재분리는 젤투과 컬럼에서100% acetonitrile을 분당 5 mL가 되도록 흘려주면서254nm 파장에서 관찰하여 2종의 분획 ISF-1-1 및ISF-1-2을 분리하였다.4. 분리된 2종의 isoflavone 중 ISF-1-1은 그 조성이daidzin, glycitin 및 genistin 이고, ISF-1-2는 genistin 단일물질이 주성분인 것으로 나타났다.5. 분리된 4종의 soyasaponin 중 SP-1은 soyasaponin A계열인 Aa(MW: 1364), Ab(MW: 1436), Ac(MW: 1420),Ae(MW: 1202), Af(MW: 1274), SAP-2는 B계열인 Ba(MW: 958), Bb(MW: 942), Bc(MW: 912)와 E계열인Bd(MW: 956), Be(MW: 940), SAP-3는 B계열인 Ba,Bb, Bc, E계열인 Bd, Be와 DDMP계열인 βg(MW:1068), SAP-4는 B계열인 Ba, Bb, Bc, E계열인 Bd, Be와 DDMP계열인 βg, βa(MW: 1038)가 주성분임을 알 수 있었다.

This study investigated the functional substances, including phenolics, tocopherol compounds in rice (Onnuri, Nampyeong, Dongjin, Deuraechan, Hopum, Iksan-515, Iksan-526) that were cultivated in Iksan region. Specially, Iksan-515 and Iksan-526 were produced resveratrol rice. Resveratrol is health-beneficial compound with strong antioxidant activity. Iksan-515 and Iksan-526 were contained resveratrol compound while, other rice varieties did not showed resveratrol. The total phenolic compounds showed similar concentrations in 7 rice varieties. Especially, Iksan-526 revealed 273.3 ㎍ g-1 and Iksan-515 was 264.8 ㎍ g-1. In this study, we analyzed vitamin E contents of 7 varieties of rice. The total tocopherols revealed 418.3 ㎍ g-1 in Iksan-526, 401.2 ㎍ g-1 in Iksan-515 and 413.3 ㎍ g-1 in Hopum. We determined 4 tocopherols (α-, β-, γ-, δ-) and 4 tocotrienols (α-, β-, γ-, δ-). Among the all samples, β-tocotrienol showed higher average concentrations (101.3 ㎍ g-1) than other compounds and, γ-tocotrienol revealed second higher concentration (94.5 ㎍ g-1). On the other hand, δ-tocopherol was not detected in all rice samples.

The present study is designed to know the effect of cultivative environment and conditions, locational genetic variation on the content and components of seed isoflavones soybean genotype. The concentration of isoflavones showed difference between three different seeding time. Specially, Somyung of normal seeding (6. 21) revealed the highest concentrations (7657.0 ㎍ g-1) than other soybean seeds. On the other hand, Cheongjakong and Taekwangkong of early seeding (5. 25) showed the lower concentrations (1518.6 ㎍ g-1, 2524.0 ㎍ g-1) than other soybeans. For different regions, Taekwangkong of Yeoju region had the highest total isoflavone concentrations (3227.5㎍ g-1) than other cultivation regions. While, Taekwangkong of Miryang region (619.5 ㎍ g-1) revealed lower concentrations than other regions. And, Cheongjakong of Yeoju regions also revealed higher concentrations (3140.1 ㎍ g-1) than other regions. On the other hand, Cheongjakong of Miryang (1619.4 ㎍ g-1) showed lower concentrations of total isoflavone concentrations. In our present study, the isoflavone concentration of soybean was influenced by seeding and cultivation regions.

The aim of this study was to evaluate 30 phenolic compounds in adzuki bean germplasm. Adzuki 21653 had the highest content of total phenolics compounds (6597~;~mug~;g-1 ) while 104372 had the lowest concentration. The average total phenolic content of Japanese (2432~;~mug~;g-1 ) adzuki beans was higher than that of Korean (2256~;~mug~;g-1 ) adzuki beans. The average total phenolic contents were 2507~;~mug~;g-1 in small sized adzuki beans from Japan and 2459~;~mug~;g-1 in those from Korea. In large sized adzuki beans, the average total phenolic contents were 1315~;~mug~;g-1 in Japanese seeds and 1232~;~mug~;g-1 in Korean seeds. The average total phenolic contents in medium seeds were 2369~;~mug~;g-1 in Japanese adzuki beans and 1397~;~mug~;g-1 in Korean ones. In small seeds, the total phenolic contents of adzuki beans varied from 524~;~mug~;g-1 to 6597~;~mug~;g-1 in Japanese ones and from 375~;~mug~;g-1 to 6569~;~mug~;g-1 in Korean ones. Japanese and Korean adzuki beans were divided into landraces and wild adzuki beans. In this study, the wild adzuki beans showed higher contents of total phenolics than the native varieties. Specifically, the wild adzuki beans from Korea had the highest concentration of phenolics (3403~;~mug~;g-1 ). All adzuki bean germplasms were measured for their color and were classified into four groups accordingly: A; L < 30, +a, +b; B; L < 30, +a, -b, C; L > 50, +a, +b, D; L > 50, +a, -b. Especially, group B had the highest concentration of total phenolic compounds (2827~;~mug~;g-1 ), whereas group C had the lowest concentration (1882~;~mug~;g-1 ).

The cereal grain crops have strong flexibility against adverse environment and they have various functional compounds. The objective of the present study was to screen phenolic compounds in sorghum [Sorghum bicolor (L.) Moench], foxtail millet (Setaria italica), common millet (Panicum miliaceum L.) by high performance liquid chromatography (HPLC) with photodiode array (PDA) detector. Sorghum contained the highest amount of phenolic compounds among three different crops (sorghum, foxtail millet, common millet). Especially Moktaksusu showed the highest amount of phenolic compounds concentrations and biggest regional differences. The comparison of average phenolic compounds in sorghums by regions showed order to Milyang (963.3~;~mug~cdotg-1 ), Yeongyang (923.1~;~mug~cdotg-1 ), Gijang (831.3~;~mug~cdotg-1 ) and Bonghwa (735.6~;~mug~cdotg-1 ). Among the sorghum cultivars, Moktaksusu (1407.9~;~mug~cdotg-1 ) had the highest concentration of phenolic compounds. The average phenolic compounds of foxtail millets showed similar amount among Milyang (319.0~;~mug~cdotg-1 ), Gijang (288.1~;~mug~cdotg-1 ) and Bonghwa (281.9~;~mug~cdotg-1 ) areas. The phenolic compounds of Yeongyang (246.6~;~mug~cdotg-1 ) slightly low and that showed similar concentrations among three different regions. The concentration of phenolic compounds in foxtail millets, Chungchajo (335.6~;~mug~cdotg-1 ) showed the highest concentrations. The average phenolic compounds of common millets showed the highest concentrations in Milyang (305.5~;~mug~cdotg-1 ), Bonghwa (262.0~;~mug~cdotg-1 ), Gijang (195.1~;~mug~cdotg-1 ), Yeongyang (237.2~;~mug~cdotg-1 ) in decreasing order. The concentration of phenolic compounds of common millets was the highest in the Norangchalgijang (337.0~;~mug~cdotg-1 ), Hwanggumgijang (250.0~;~mug~cdotg-1 ) was also relatively higher than others. The results of this study will provide basic information for breeding sorghums, foxtail millets and common millets with higher phenolic compound concentrations.

Soybean seeds contain many biologically active secondary metabolites, such as proteins, saponins, isoflavones, phytic acids, trypsin inhibitors and phytosterols. Among them, saponins in soybeans have attracted considerable interest because of their health benefits. Soyasaponin A and B are the most abundant types of saponins found in soybeans along with soyasapogenol (aglycone), which is a precursor of soyasaponin. The main purpose of this experiment was to determine the concentration of soyasapogenol in soybean seeds and sprouts as a function of seed size, usage, seed coat color and seed cotyledon color. The 79 Korean soybean varieties were cultivated at Yesan of Chungnam in 2006 for the analysis of soyasapogenol using HPLC with Evaporative Light Scattering Detection (ELSD). The total average concentration of soyasapogenol was 1313.52~mug~;g-1 in soybean seeds and 1377.22~mug~;g-1 in soybean sprouts. Soybean sprouts were about 5% higher than soybean seeds in average total soyasapogenol concentration. In the process of sprouting, the average soyasapogenol A content decreased by approximately 1.6%, but soyasapogenol B and total soyasapogenol increased by 8.31% and 4.88%, based on the content of soybean seeds. When classified according to the size of seeds, the total soyasapogenol concentration of soybean seeds were not significantly different (p<0.05) On average, small soybean seeds were increased by as much as 103.14~mug~;g-1 in sprouting process. As a function of the use of the seeds, The total soyasapogenol in soybean seeds were significantly different (p<0.05). While, the soybean sprouts were not significant different (p<0.05). Altogether, sprout soybean seeds show the greatest change in content during the germination process. When seeds with different coat colors were compared, the total soyasapogenol concentration of soybean with yellow seed coats (1357.30~mu g~;g1 ) was slightly higher than that of soybean with black (1260.30~mug~;g-1 ) or brown (1263.62~mug~;g-1 ) seed coats. For the color of the cotyledon, the total soyasapogenol concentration was significantly increased in green cotyledon during the germination and seedling process. The results of this study suggest the functional characteristics of soybeans through quantitative analysis of soyasapogenol. In addition, the concentration of soyasapogenol exhibited a change during the germination process, which was evaluated by the nutritional value of the soybean sprouts.