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Research Article

Development of Molecular Markers for Low Raffinose and Stachyose in Korean Soybean Cultivars

Plant Breeding and Biotechnology 2014;2(2):151-157.
Published online: June 30, 2014

1Department of Horticulture, Sunchon National University, Suncheon, Korea

2Department of Function Crop, National Institute of Crop Science, Rural Development Administration, 1085 Neidong, Miryang, Korea

3Department of Plant Science, Plant Genomics and Breeding Institute, and Research Institute for Agriculture and Life Sciences, College of Agriculture and Life Sciences, Seoul National University, Seoul, Korea

*Corresponding author: Ill-Sup Nou, nis@sunchon.ac.kr, Tel: +82-61-750-3249, Fax: +82-61-750-5389
• Received: June 22, 2014   • Revised: June 24, 2014   • Accepted: June 25, 2014

Copyright © 2014 The Korean Society of Breeding Science

This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

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  • Breeding of Penta Null Soybean [Glycine max (L.) Merr.] for Five Antinutritional and Allergenic Components of Lipoxygenase, KTI, Lectin, 7S α′ Subunit, and Stachyose
    Sang Woo Choi, Sarath Ly, Jeong Hwan Lee, Hyeon Su Oh, Se Yeong Kim, Na Hyeon Kim, Jong II Chung
    Frontiers in Plant Science.2022;[Epub]     CrossRef
  • Development of near‐infrared reflectance spectroscopy calibration for sugar content in ground soybean seed using Perten DA7250 analyzer
    Nick Lord, Chao Shang, Luciana Rosso, Bo Zhang
    Crop Science.2021; 61(2): 966.     CrossRef
  • Effect of a mutation in Raffinose Synthase 2 (GmRS2 ) on soybean quality traits
    Luiz Cláudio Costa Silva, Larissa Martins Mota, Letícia Assis Barony Vasconcelos Fonseca, Rafael Delmond Bueno, Newton Deniz Piovesan, Elizabeth Pacheco Batista Fontes, Maximiller Dal-Bianco
    Crop Breeding and Applied Biotechnology.2019; 19(1): 62.     CrossRef
  • Stachyose increases absorption and hepatoprotective effect of tea polyphenols in high fructose‐fed mice
    Wenfeng Li, Di Huang, Anning Gao, Xingbin Yang
    Molecular Nutrition & Food Research.2016; 60(3): 502.     CrossRef

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Development of Molecular Markers for Low Raffinose and Stachyose in Korean Soybean Cultivars
Plant Breed. Biotech.. 2014;2(2):151-157.   Published online June 30, 2014
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Development of Molecular Markers for Low Raffinose and Stachyose in Korean Soybean Cultivars
Plant Breed. Biotech.. 2014;2(2):151-157.   Published online June 30, 2014
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Development of Molecular Markers for Low Raffinose and Stachyose in Korean Soybean Cultivars
Image Image Image
Fig. 1 Genotyping for RS2 allele in Korean soybean cultivars and PI200508. (A) Nucleotide sequence (GenBank accession: EU651888) comparison of RS2 sequence in three-bp deletion to PI200508 and development of SNP and InDel marker, (B) Genotyping using the SNP type marker on agarose gel; 1: Daewon, 2: Cheongja, 3: Danmiput, 4: PI200508 (C) Genotyping using the InDel marker on polyacrylamide gel; 1: Daewon, 2: Cheongja, 3: Danmiput, 4: PI200508, 5: Daewon+PI200508 (DNA mixture), 6: Cheongja+PI200508 (DNA mixture), 7: Danmiput+PI200508 (DNA mixture).
Fig. 2 Banding patterns of RS2 genotype in three F2 populations assayed using SNP and InDel markers. Red arrow was selected PI200508-type. (A) Daewon×PI200508, (B) Cheongja×PI200508, (C) Danmiput×PI200508.
Fig. 3 Oligosaccharides content of PI200508. (A) Biosynthetic pathway of raffinose family of oligosaccharides (RFOs) in plant. Red indicates metabolism of PI200508. (B) Oligosaccharide content of seeds of selected 28 soybean plants in Daewon×PI200508 population using HPLC.
Development of Molecular Markers for Low Raffinose and Stachyose in Korean Soybean Cultivars

Chi-square values of three F2 soybean populations segregating for low raffinose and stachyose in PI200508. Three populations show significant deviation from the expected SNP marker 3:1 wild type: PI200508 type ratio and InDel marker 1:2:1, wild type: heterozygous type: PI200508 type ratio.

Populations

Daewon × PI200508 Cheongja × PI200508 Danmi × PI200508 Expected ratio
F2 numbers 150 150 150
SNP (A and H : B) 116:34 (3.4:1) 112:38 (3.1:1) 116:34 (3.4:1) 3:1
InDel (A : H : B) 45:71:34 (1.3:2.1:1) 40:72:38 (1.05:1.9:1) 28:88:34 (1:3.1:1.2) 1:2:1

Oligosaccharide content of 28 RILs of soybean seeds from Daewon×PI200508 population analyzed using HPLC. A: Daewon type, B: PI200508 type, Hetero: heterozygous type.

Sample Sucrose(mg/g) Raffinose(mg/g) Stachyose(mg/g) Total(mg/g) Genotype
Daewon 6.2 0.6 3.1 10.1 A

912231-31 4.6 0.7 3.4 9.0 Homo-A
912231-38 5.1 0.9 3.8 10.1 Homo-A
912231-62 4.6 0.9 3.3 9.1 Homo-A
912231-64 4.8 1.0 2.2 8.4 Homo-A
912231-67 5.4 0.8 3.1 9.6 Homo-A
912231-75 5.1 0.8 3.1 9.2 Homo-A
912231-82 5.1 0.7 3.5 9.5 Homo-A
912231-103 4.2 0.8 3.4 8.6 Homo-A
912231-109 6.3 1.0 2.9 10.3 Homo-A
912231-112 4.6 1.0 2.7 8.9 Homo-A

912231-23 5.5 0.7 3.0 9.3 Hetero
912231-27 4.7 0.8 2.5 8.4 Hetero
912231-65 5.4 0.8 2.8 9.3 Hetero
912231-68 5.8 0.5 2.4 8.9 Hetero
912231-70 5.3 0.5 2.1 7.9 Hetero
912231-71 5.2 0.6 1.8 7.9 Hetero
912231-104 5.1 0.7 2.1 8.1 Hetero
912231-105 5.3 1.0 2.7 9.3 Hetero
912231-111 6.2 0.7 2.3 9.4 Hetero

912231-14 7.0 0.5 0.6 8.2 Homo-B
912231-22 7.6 0.5 0.9 9.1 Homo-B
912231-25 7.2 0.4 0.7 8.4 Homo-B
912231-55 6.6 0.2 0.5 7.4 Homo-B
912231-58 6.4 0.4 1.0 8.0 Homo-B
912231-74 6.4 0.4 0.5 7.3 Homo-B
912231-97 7.4 0.4 0.4 8.2 Homo-B
912231-120 6.9 0.5 0.8 8.3 Homo-B
912231-140 6.8 0.5 0.5 7.8 Homo-B

PI200508 8.3 0.4 0.9 9.6 B
Table 1 Chi-square values of three F2 soybean populations segregating for low raffinose and stachyose in PI200508. Three populations show significant deviation from the expected SNP marker 3:1 wild type: PI200508 type ratio and InDel marker 1:2:1, wild type: heterozygous type: PI200508 type ratio.
Table 2 Oligosaccharide content of 28 RILs of soybean seeds from Daewon×PI200508 population analyzed using HPLC. A: Daewon type, B: PI200508 type, Hetero: heterozygous type.