콩은 세계 유지작물시장에서 48%을 차지하는 중요한 작물이다. 콩 종실의 크기와 기름함량의 양적 및 질적개선이 콩 육종에 있어서 가장 중요한 목적중의 하나이다. 이 연구의 목적은 종실의 크기와 지방산조성을 조절하는 양적 형질 유전자좌를 밝히는 것이다. 큰올콩과 익산10호의 교배로부터 F2:10 세대의 재조합자식계통 115계통을 이용하였다. 협의 유전력 검정에서는 백립중이 0.72, 포화지방산(팔미트산 + 스테아릭산)이 0.60, 올레익산이 0.83과 리놀레익산이 0.77 및 리놀렌산이 0.81을 나타내었다. 백립중과 연관된 양적형질유전자좌는 염색체 1번, 3번, 8번, 9번과 16번 및 17번에 7개로 나타났다. 포화지방산은 염색체 17번과 19번에 2개의 독립된 양적 형질 유전자좌가 연관되어 있었다. 올레익산 함량에 대해서는 다섯 개의 독립적인 양적 형질 유전자좌가 염색체 7번, 11번, 14번과 16번 및 19번에서 확인하였다. 리놀레익산 함량에 대한 5개의 양적 형질 유전자좌는 염색체 2번, 11번, 14번과 16번 및 19번에 있었다. 리놀렌산 함량은 3개의 양적형질유전자좌가 염색체 8번과 10번 및 19번에 관련되어 있었다. 그리고 올레익산과, 리놀레익산 및 리놀렌산에 공통적으로 확인되는 주요 양적 형질 유전자좌는 염색체 19번 이었다.

Soybean [Glycine max(L.) Merr.] is an important crop, accounting for 48% of the world market in oil crops. Improvements in economic traits, such as quality and oil constituents, arethe most important objectives in soybean breeding. The objective of this study was to identify quantitative trait loci (QTLs) that control seed size and fatty acid contents in soybean. 115 F2:10 recombinant inbred lines (RIL) developed from a cross of 'Keunolkong' and 'Iksan10' were used. Narrow-sense heritability estimates based on a plot mean on 100 seed weight, saturated fatty acid (palmitic acid + stearic acid), and oleic, linoleic, and linolenic acid content were 0.72, 0.60, 0.83, 0.77 and 0.81, respectively. The 100 seeds weight was related to seven QTLs located on chromosomes 1, 3, 8, 9, 16 and 17. Two independent QTLs for saturated fatty acid content were identified on chromosomes 17 and 19. Five independent QTLs for oleic acid content wereidentified on chromosomes7, 11, 14, 16 and 19. Five QTLs for linoleic acid content were located on chromosomes 2, 11, 14, 16 and 19. Three QTLs for linolenic acid content were located on chromosomes 8, 10 and 19. Oleic, linoleic, and linolenic acid had one major common QTL on chromosome 19. Thus, linoleic and linolenic acid content were identified as common QTLs.

• Introduction
• Materials and Methods
• Results and Discussion
• Acknowledgement
• References
• 초록

1 김현경, "콩에서 종실의 무게와 oil 및 단백질 함량을 조절하는 양적 형질 유전자좌와 연관된 simple sequence repeat marker" 한국생명과학회 16 (16): 949-954, 2006

2 Glaudements, H. D., "The world of edible oils" Robobank International Marketing 1-5, 1998

3 Chung, J., "The seed protein, oil and yield QTL on soybean linkage group I" 43 : 1053-1067, 2003

4 Haldane, J. B. S., "The combination of linkage values and the calculation of distances between the loci of linked factors" 8 : 299-309, 1919

5 Liu, K, "Soybeans: Chemistry, technology and utilization" Chapman and Hall 1997

6 Wang, T., "Seed physiological performance of soybeans with altered saturated fatty acid contents" 11 : 93-97, 2001

7 Lee, S. H., "RFLP loci associated with soybean seed protein and oil content across populations and locations" 93 : 649-657, 1996

8 Panthee, D. R., "Quanttitative trait loci for seed protein and oil concentration, and seed size in soybean" 45 : 2015-2022, 2005

9 Burton, J. W., "Quantitative genetics: Results relevant to soybean breeding. in: Soybeans: Improvement, production and uses, 2nd eds" 1987

10 Wilson, R. F., "Progress in the selection for altered fatty acid composition in soybean" 27 : 788-791, 1981

11 Mainly, K. F., "Overview of QTL mapping software and introduction to Map Manager QT" 10 : 327-334, 1999

12 Hammond, E. G., "Organization of rapid analysis of lipids in many individual plants" 12 : 321-329, 1991

13 Rakow, G., "Opportunities and problems in modification of levels of rapeseed C18 unsaturated fatty acid" 50 : 400-403, 1973

14 Whittaker, J. C., "On the mapping of QTL by regression of phenotype on marker type" 77 : 23-32, 1996

15 Hammond, E. G., "Oil quality improvement in soybeans - Glycine max (L.) Merr" 77 : 97-101, 1975

16 Vles R. O., "Nutritional characteristics and food use of vegetable oils. in: Oil crops of the World, Their Breeding and Utilization" McGraw-Hill, New York. 63-86, 1989

17 Hoeck, J. A., "Molecular marker analysis of seed size in soybean" 43 : 68-74, 2003

18 Li, Z., "Molecular mapping genes conditioning reduced palmitic acid content" 42 : 373-378, 2002

19 Topfer, R., "Modification of plant lipid synthesis" 268 : 681-686, 1995

20 Brummer, E. C., "Mapping QTL for seed protein and oil content eight soybean populations" 37 : 370-378, 1997

21 Fehr, W. R., "Inheritance of elevated palmitic acid content in soybean seed oil" 31 : 1522-1524, 1991

22 Frey, K.J., "Heritability in standard units" 49 : 59-62, 1957

23 Orf, J. H., "Genetics of soybean agronomic traits: II. Interaction between yield quantitative trait loci in soybean" 39 : 1652-1657, 1999

24 Mansur, L. M., "Genetic mapping of agronomic traits using recombinant inbred lines of soybean [Glycine max (L.) Merr.]" 36 : 1327-1336, 1996

25 Miller, J. F., "Genetic control of high oleic acid content in sunflower oil" 27 : 923-926, 1987

26 Wilcox, J. R., "Genetic alteration of soybean oil composition by a chemical mutagen" 61 : 97-100, 1984

27 Son, Y. K., "Effect of soybean cultivars Korean traditional deonjang (soybean paste) processing" 14 : 27-36, 1997

28 Hu, F. B., "Dietary fat intake and the risk of coronary heart disease in women" 337 : 1491-1499, 1997

29 Robertson J. A., "Chemical and microbial changes in dehulled confectionary sunflower kernels during storage under controlled conditions" 39 : 18-23, 1976

30 김현경, "Analysis of Quantitative Trait Loci (QTLs) for Unsaturated Fatty Acid Contents in Soybean Seed Using Recombinant Inbred Lines" 한국생명과학회 18 (18): 1665-1670, 2008

31 Watanabe, S., "Analysis of QTLs for reproduction development and seed quality traits in soybean using recombinant in bred lines" 54 : 399-407, 2004

32 Beuselinck, P. R., "An assessment of phenotype selection for linolenic acid using genetic markers" 46 : 747-750, 2006

33 Keim, P., "A rapid protocol for isolating soybean DNA" 15 : 150-154, 1988