• 한국작물학회지
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• 제52권1호
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• pp.81-88
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• 2007

본 연구는 농진청 종자은행에 보존된 한국, 중국 및 일본 재래종 콩과 한국 야생콩의 SSR profile 작성과 그들의 유전적 구조 해석을 위해 9개의 SSR 마커에 의해 분석되었다. 1. DNA profiling은 유전자좌별로 2,855(Satt458)점$\sim$4,368(Satt197)점이 분석되어 35,655건이 데이터베이스화되었다. 2. 총 대립인자수는 267개였고 유전자좌당 평균 29.6개의 높은 다형성을 나타냈다. 유전자좌별 대립인자 수는 21개(Satt532 및 Satt141)부터 58개(Sat_074)까지 나타났다. 자원내력별 대립인자수는 한국 야생콩에서 196개로 가장 많은 것으로 나타난 반면, 일본 재래종 콩에서는 가장 적은 115개로 나타났다. 3. 집단에 따른 유전자좌별 대립인자의 범위로 한국 재래종 콩이 가장 많은 5개의 유전자좌(Sat_074, Satt141, Satt286, Satt545, Satt458)에서 다음으로는 한국 야생콩이 4개의 유전자좌(Satt187, Satt532, Satt245, Satt197)에서 가장 넓은 것으로 나타났다. 그러나 대립 인자수면에서는 한국 재래종 콩이 5개의 유전자좌(Sat_074, Satt141, Satt197, Satt545, Satt458)에서 가장 많은 대립인자수를 나타냈고, 한국 야생콩은 나머지 4개의 유전자좌(Satt187, Satt532, Satt245, Satt286)에서 가장 많은 대립인자수를 나타냈다. 4. 대립인자 분포에 있어 전체적으로 한국 야생콩 집단은 재래종 집단들에 비해 고른 분포를 나타냈고 대립인자의 크기가 큰쪽(high ladder)에서보다 작은쪽(low ladder)에서 높은 분포를 나타냈다. 5. 재래종 집단들 간에 대립인자 분포를 살펴보면, 한국 집단은 Satt286(202 bp, 232 bp)에서, 중국집단은 Satt197(171 bp)와 Satt458(173 bp)에서 그리고 일본집단은 Sat_074(244 bp)와 Satt458(170 bp)에서 매우 높은 것으로 나타났다.

• Journal of Crop Science and Biotechnology
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• 제10권3호
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• pp.159-162
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• 2007

Soybean Kunitz trypsin inhibitor(SKTI) protein is a small, monomeric and non-glycosylated protein containing 181 amino acid residues and is responsible for the inferior nutritional quality of unheated or incompletely heated soybean meal. The objective of this research is to confirm SSR marker(Satt228) tightly linked to the Ti locus using several germplasm accessions with TiTi or titi genotypes for MAS in soybean breeding programs. TiTi genotypes('Jinpumkong2', 'Clark', and 'William') had allele1 and titi genotypes(PI196168, C242, W60, and PI157440) had allele2 in Satt228 marker analysis. 'Jinpumkong2', 'Clark', and 'William'(TiTi genotype) had a Kunitz trypsin inhibitor protein of 21.5 kDa size, and PI196168, C242, W60, and PI157440(titi genotype) did not have the band in protein gel electrophoresis from the mature seed. Cosegregation between the SKTI protein(21.5 kDa size) and allele of Satt228 marker was observed in seven germplasm accessions with different genetic backgrounds. Any recombination between the SKTI protein and allele of the Satt228 marker was not observed. This result indicates that Satt228 marker may effectively utilized to select the plants with the titi genotype.

• 한국작물학회지
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• 제33권4호
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• pp.380-385
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• 1988

The present study was conducted to evaluate agronomic characters of the soybean germplasm which was collected from the sites covering whole areas of southern Korean peninsula. A total of 2,748 Korean native soybeans was grouped for fruiting period and in this group frequency distribution of the important agronomic characters and relationships among the characters were determined. The results obtained were summarized as follows; The soybean germplasm was comprised of SeoulㆍKyonggi-do 7.5%, Kangwon-do 13.3%, Chungchongbuk-6.6%. Chungchongnam-do 12.3%, Chollabuk-do 10.7%, Chollanam-do 12.6%, Kyongsangbuk-do 20.8%, Kyongsangnam-do 15.3% and Cheju-do 0.6% in number of collections. Frequency distribution of the germplasm for fruiting period was 0.14% in Group I (below 55 days). 1.67% in Group II (56-60 days), 10.58% in (Group III(61-65 days), 23.18% in Group IV(66-70 days), 25.91% in Group V(71-75 days) 19.79% in Group Ⅵ(76-80 days), 15.1% in Group Ⅶ(81-85 days) and 3.6% in Group Ⅷ(over 85 days). The lines over 70 days in fruiting period were as much as 64.4% of germplasm. The fruiting period varied largely from 45 days to 91 days. Fruiting period was positively correlated to seed weight, days to maturity, days to flowering, plant height and number of branches per plant, respectively. While. it was negatively correlated to number of pods, lodging and virus infectivity, repectively, and in particular negative correlation was shown significantly between yield and fruiting period. Average yield was very high as much a 1.389kg/ha in fruiting period Group I, and decreased with increment of fruiting period, 1.400kg/ha in Group II. 1.384kg/ha in Group III. 1,299kg/ha in Group IV, 1,197kg/ha in Group V, 1,117kg/ha in Group Ⅵ, 967kg/ha in Group Ⅶ and 832kg/ha in Group Ⅷ.

• 한국작물학회지
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• 제38권5호
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• pp.437-441
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• 1993

양질의 밥밑콩 품종 육성 및 유전자원으로의 활용가능성을 검토하고자 전국에서 수집한 검정콩 965계통을 대상으로 종실의 외형적 특성과 그 분포를 조사한 바 그 결과를 요약하면 다음과 같다. 1. 수집검정콩 계통의 100립중 전국평균은 28.1g이었으며 도별 변이를 보면 경기도와 경북 수집 계통이 무거웠으며 전북, 전남지역이 가볍게 나타났다. 2. 성숙군별 100립중의 차이는 중, 만숙군에서는 성숙군이 늦을수록 100립중이 무거웠다. 3. 수집검정콩 종실의 입형은 대체로 타원형이었으며 길이:폭:두께 비율의 평균은 1:0.77:0.77이었다. 4. 수집검정콩의 자엽색 분포에서는 72%가 황색자엽이었으며 27%가 녹색자엽이었다.

• 한국작물학회지
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• 제33권s01호
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• pp.39-47
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• 1988

Soybean grain is most widely used and soybean crop produces most high protein per area among crops. To meet rapid increase of human population and supply protein in safety. soybean has considered more and more important crop. And it has been emphasizing that high quality and high protein soybean breeding must be made efforts in future. Many papers related to soybean breeding for high quality and protein and soybean protein composition have suggested the problems to do in future. Soybean germplasm collection. classification and conservation should be continuously performed, and it is emphasized that wild type of soybeans (G. soja) be considered to use in breeding for high protein varieties. Selections would be better emphasized in first yield and therefore high yield of protein per area. Selection for high protein would be secondary criterion. High protein lines with high yielding potential could be selection from certain populations, and breeders should consider this phenomenon in procedure of selection. Heritability of protein percent is relatively high and genetic gain of increment of protein percent is large. Soybean protein which is comprised 70 to 90% of globulin is constituted mostly 11S and 7S proteins. Sulfur-containing amino acids, methionine and cysteine, are identified to contain more in 11S protein than 7S protein. High 11S germplasm should be desirable to use in crossing plan, and selection of high ratio of 11S/7S lines be better in development of high quality varieties.

• 한국자원식물학회:학술대회논문집
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• 한국자원식물학회 2020년도 춘계학술대회
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• pp.101-101
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• 2020

Soybean is known as to have a several healthy ingredients. Among them, isoflavones are effective in reducing obesity, menopausal symptom. Isoflavones consist of 12 isomers, including Aglycon, Glucoside, Malonyl glucoside, Acetyl glucoside, and are usually found in soybean seeds. The content is determined by the sum of 12 isomers, and the content value difference between the varieties is huge. In this study, we investigated the agronomic traits, 12 isomer of isoflavone content and composition for 49 soybean germplasms. This germplasms were selected from the 23,000 germplasms with the highest total content of isoflavones possessed by the National Agrobiodiversity Center. Seed samples were cultivated in experimental field located in Jeonju City on April 04, 2019. Matured seeds were harvested and portions of each seed samples were oven-dried, pulverized, and analyzed for their isoflavone compositions using HPLC-DAD. The soybean samples showed distinction in their agronomic traits, isoflavone compositions and contents. The days to flowering ranged between 38 and 69 days while the days to maturity ranged between 103 and 156 days. The seed coat color of soybean germplasms was 24 in black, 10 in yellow, 2 in green, 5 in yellowish green, 4 in green with black spot, 4 in pale yellow. The germplasm with the highest total content of isoflavones was the IT178054(1257.61±7.98 ㎍/g), but the germplasms containing the largest number of isoflavone isomers were IT274592, IT275005, both germplasms had 11 isoflavone isomers excluding Malonyl glycitin. The largest source of Aglycon, the most easily absorbed isoflavone form in the human body, was IT274592(DZ: 8.83±0.30 ㎍/g, GL: 11.14±0.81 ㎍/g, GE: 8.16±0.26 ㎍/g), while only IT274592, IT275005, IT308619 contained all three components of Aglycon. In Principal Component Analysis(PCA), the first two principal components showed more than 3.5 Eigen value and accounted for 58.2% of variability. The total content value had strong relationship with Malonyl genistin content value. Acetyl isomers had strong relationship, but Malonyl isomers were only related to isomers except Malonyl glycitin. These results will help in research on soybean varieties to enhance isoflavone ingredients.

• 한국작물학회:학술대회논문집
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• 한국작물학회 2004년도 춘계 학술대회지
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• pp.54-55
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• 2004

• 한국응용곤충학회지
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• 제34권2호
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• pp.83-88
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• 1995

Soybean has been cultivated in China for 5,000 years. The soybean cyst neamtode (SCN), Heterodra glycines, was recongnized in Northeastern China in 1899. Currently, it is known to occur in 12 provinces. The biology of SCN was investigated in several provinces. Six races of SCN were identified (race 1, 2, 3, 4, 5 and 7). About f10,000 soybean germplasm lines were evaluated for their resistance to race 1, 3, 4 and 5 of SCN. At least two black-seeded cultivars are resistant to all four races. Several tolerant soybean cultivars with yellow seed coat were released and are in production. Additional resistant cultivars are being developed. Nematicides were not applied in production Potential biocontrol agents and related aspects are being investigated.

• 한국육종학회지
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• 제42권4호
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• pp.329-338
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• 2010

Drought, salinity and flooding are three important abiotic factors limiting soybean production worldwide. Irrigation, soil reclamation, and drainage systems are not generally available or economically feasible for soybean production. Therefore, productive soybean varieties with tolerance are a cost effective means for reducing yield losses due to these factors. Genetic variability for higher tolerance to drought, salt and flooding is important. However, only a small portion of nearly 200,000 world soybean accessions have been screened to find genotypes with tolerance for use in breeding programs. Evaluation for tolerance to drought, salinity and flooding is difficult due to lack of faster, cost effective, repeatable screening methods. Soybean strains with higher tolerance to the above stresses have been identified. Crosses with lines with drought, salt and flooding tolerance through conventional breeding has made a significant contribution to improving tolerance to abiotic stress in soybean. Molecular markers associated with tolerance to drought, salt and flooding will allow faster, reliable screening for these traits. Germplasm resources, genome sequence information and various genomic tools are available for soybean. Integration of genomic tools coupled with well-designed breeding strategies and effective uses of these resources will help to develop soybean varieties with higher tolerance to drought, salt and flooding.

• 한국작물학회:학술대회논문집
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• 한국작물학회 1994년도 추계 학술대회지
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• pp.30-31
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• 1994