Increase of isoflavones in the aglycone form in soybeans by targeted crossings of cultivated breeding material

Isoflavones are a group of phytoestrogens, naturally-occurring substances important for their role in human health. Legumes, particularly soybeans ( Glycine max (L.) Merr.), are the richest source of isoflavones in human diet. Since there is not much current data on genetics of isoflavones in soybea...

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Published in:Scientific reports 2019-07, Vol.9 (1), p.10341-7, Article 10341
Main Authors: Miladinović, Jegor, Đorđević, Vuk, Balešević-Tubić, Svetlana, Petrović, Kristina, Ćeran, Marina, Cvejić, Jelena, Bursać, Mira, Miladinović, Dragana
Format: Article
Language:English
Subjects:
631/208/8
631/449/711
Breeding
Crosses, Genetic
Development strategies
Genetic improvement
Genetics
Genotype
Genotypes
Glycine max
Glycine max - genetics
Glycine max - metabolism
Heredity
Humanities and Social Sciences
Hybridization, Genetic
Inheritance Patterns
Inheritances
Isoflavones
Isoflavones - chemistry
Isoflavones - metabolism
Legumes
multidisciplinary
Phytoestrogens
Phytoestrogens - chemistry
Phytoestrogens - metabolism
Plant Breeding
Science
Science (multidisciplinary)
Seeds - genetics
Seeds - metabolism
Soybeans
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Summary:Isoflavones are a group of phytoestrogens, naturally-occurring substances important for their role in human health. Legumes, particularly soybeans ( Glycine max (L.) Merr.), are the richest source of isoflavones in human diet. Since there is not much current data on genetics of isoflavones in soybean, particularly in the aglycone form, elucidation of the mode of inheritance is necessary in order to design an efficient breeding strategy for the development of high-isoflavone soybean genotypes. Based on the isoflavone content in 23 samples of soybeans from four different maturity groups (00, 0, I and II), three crosses were made in order to determine the inheritance pattern and increase the content of total isoflavones and their aglycone form. Genotype with the lowest total isoflavone content (NS-L-146) was crossed with the low- (NS Zenit), medium (NS Maximus), and high- (NS Virtus) isoflavone genotypes. There were no significant differences in the total isoflavone content (TIF) between F 2 populations, and there was no transgression among genotypes within the populations. Each genotype within all three populations had a higher TIF value than the lower parent (NS-L-146), while genotypes with a higher TIF value than the better parent were found only in the NS-L-146 × NS Zenit cross. However, significant differences in the aglycone ratio (ratio of aglycone to glycone form of isoflavones) were found between the populations. The highest aglycone ratio was found in the NS-L-146 × NS Maximus cross. The results indicate that the genetic improvement for the trait is possible.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-019-46817-1