Recent Advances in Breeding for Modified Fatty Acid Profile in Soybean Oil

Talukdar, Akshay; Shivakumar, M.; Chandra, Subhash

doi:10.1007/978-3-030-04609-5_7

Cited by 2 publications

(2 citation statements)

References 56 publications

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“…Backcrosses of 125 flower from BC2F1-MaMt2 plants with Biosoy-1 produced only 13 pods (10.4%) and 26 BC3F1 seeds (Table 2). This result aligned with the assertion that the rate of successful soybean crossing is notably low, falling below 40% [8]. The efficacy of artificial pollination coupled with fertilization is contingent upon various factors, such as breeder expertise, varietal compatibility, receptive and anthesis timing, and environmental conditions [9].…”

Section: Molecular Confirmation Of Mamt2 Genesupporting

confidence: 70%

Improvement of superior soybean variety, Biosoy-1 for aluminium tolerance character

Pardal,

Slamet,

Prihaningsih

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

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Indonesia has lot of sub-optimal land, especially outside Java, but generally the land is acidic, contains lots of heavy metals and is poor in nutrients, making it less suitable for agriculture, including soybean cultivation. Efforts to improve land conditions through the application of liming are quite helpful, but are inefficient because they are easily washed out by rainwater and require expensive labor and costs for large areas. The use of tolerant and adaptive varieties for acidic land are effective solutions. Biosoy-1 and Biosoy-2 are new superior soybean varieties released by Ministry of Agriculture which have high yield potential (more than 3 tons/ha) and big grain, but are less adaptive to sub-optimal land so that the planting area is still limited. Efforts to improve the Biosoy variety for aluminum stress tolerant have been carried out through the introgression of the MaMt2 gene from transgenic soybean lines into the Biosoy variety. Thirty of F1 soybean seeds have been produced and 24 plants of them were positive for carrying the MaMt2 gene. Furthermore, the F1-MaMt2 plants were backcrossed to Biosoy several times in order to obtain a soybean line with high yield and tolerance to aluminum stress. Currently, a total of 16 number of BC3F1 seeds are being planting in confined screen house for molecular analysis and following by backcrossing to Biosoy-1 variety to produce BC4F1 seeds.

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Section: Molecular Confirmation Of Mamt2 Genesupporting

confidence: 70%

Improvement of superior soybean variety, Biosoy-1 for aluminium tolerance character

Pardal,

Slamet,

Prihaningsih

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

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“…Therefore, in studies involving genetic improvement of soybean fatty acid composition through breeding, attention should be paid to the correlations among different fatty acid components. The clear correlations between these components make it easier to successfully breed high-quality soybean varieties that meet breeding requirements [48,49].…”

Section: Discussionmentioning

confidence: 99%

Genome-Wide Association Analysis-Based Mining of Quality Genes Related to Linoleic and Linolenic Acids in Soybean

Wang,

Liu,

Zhang

et al. 2023

Agriculture

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Soybean fat contains five principal fatty acids, and its fatty acid composition and nutritional value depend on the type of soybean oil, storage duration, and conditions. Among the fat contents, polyunsaturated fatty acids, such as linoleic acid and linolenic acid, play an essential role in maintaining human life activities; thus, increasing the proportions of the linoleic acid and linolenic acid contents can help improve the nutritional value of soybean oil. Our laboratory completed SLAF-seq whole genome sequencing of the natural population (292 soybean varieties) in the previous growth period. In this study, genome-wide association analysis (GWAS) was performed based on the natural population genotypic data and three-year phenotypic data of soybean linoleic acid and linolenic acid contents, and a significant single nucleotide polymorphisms (SNPs) locus (Gm13_10009679) associated with soybean oleic acid content was repeatedly detected over a span of 3 years using the GLM model and MLM model. Additionally, another significant SNP locus (Gm19_41366844) correlated with soybean linolenic acid was identified through the same models. Genes within the 100 Kb interval upstream and downstream of the SNP loci were scanned and analyzed for their functional annotation and enrichment, and one gene related to soybean linoleic acid synthesis (Glyma.13G035600) and one gene related to linolenic acid synthesis (Glyma.19G147400) were screened. The expressions of the candidate genes were verified using qRT-PCR, and based on the verification results, it was hypothesized that Glyma.13G035600 and Glyma.19G147400 positively regulate linoleic acid and linolenic acid synthesis and accumulation, respectively. The above study lays the foundation for further validating gene functions, and analyzing the regulatory mechanisms of linoleic acid and linolenic acid synthesis and accumulation in soybean.

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Recent Advances in Breeding for Modified Fatty Acid Profile in Soybean Oil

Cited by 2 publications

References 56 publications

Improvement of superior soybean variety, Biosoy-1 for aluminium tolerance character

Improvement of superior soybean variety, Biosoy-1 for aluminium tolerance character

Genome-Wide Association Analysis-Based Mining of Quality Genes Related to Linoleic and Linolenic Acids in Soybean

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