Molecular basis of the low linolenic acid trait in soybean EMS mutant line RG10

Reinprecht, Yarmilla; Luk-Labey, Shun-Yan; Larsen, Julie S.; Poysa, Vaino; Yu, Kangfu; Rajcan, Istvan; Ablett, G. R.; Pauls, K. Peter

doi:10.1111/j.1439-0523.2008.01571.x

Cited by 44 publications

(52 citation statements)

References 26 publications

(40 reference statements)

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“…Mutants with low linolenate (designated fan) have been identified previously, and two independent low linolenic mutants have been shown to contain lesions in the FAD3A gene [5,10,31,32]. When all three FAD3 homologs are downregulated with RNAi in seeds, International Journal of Agronomy linolenic acid levels can be further reduced, therefore, it is possible that mutation in FAD3B or FAD3C may also result in low levels of linolenic acid [33].…”

Section: Discussionmentioning

confidence: 99%

Soybean Oil-Quality Variants Identified by Large-Scale Mutagenesis

Hudson

2012

International Journal of Agronomy

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To identify genetic variation for fatty acid composition in mature soybean seeds, 4566 M 3 generation seed samples from a chemically mutagenized population were subjected to fatty acid profiling by gas chromatography. In the population, a wide range of variation in the content for each of the five major fatty acids was observed. Seventy-nine lines were identified which contained significantly high or low levels of one of the five major soybean fatty acids. These lines were advanced to the subsequent generation. Of the 79 lines showing a variant fatty acid profile in the M 3 , 52 showed clear heritability for the oil composition in the seeds of the subsequent generation. These lines are likely to represent 52 distinct genetic mutations. These mutants may represent new loci involved in the determination of soybean seed oil content or could be new isolates or alleles of previously identified genetic variants for soybean oil composition.

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Section: Discussionmentioning

confidence: 99%

Soybean Oil-Quality Variants Identified by Large-Scale Mutagenesis

Hudson

2012

International Journal of Agronomy

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“…Além desses, selecionaram-se, também, os genes FAD3B e FAD3C, que codificam as ω-3-dessaturases e afetam o acúmulo de ácido linolênico em grãos de soja (Bilyeu et al, 2006;Pinto et al, 2013), para os quais já foram desenvolvidos marcadores SNPs (Bilyeu et al, 2006). Portanto, no presente trabalho, testou-se a efetividade da metodologia HRM para a genotipagem desses SNPs, nas populações: A29 x Tucunaré e FA22 x CD219RR, uma vez que seu uso é promissor para a seleção de genótipos superiores de soja (Bilyeu et al, 2005(Bilyeu et al, , 2006(Bilyeu et al, , 2011Reinprecht et al, 2009;Pinto et al, 2013).…”

Section: Identification Of Snps For Fatty Acid Content In Soybean By unclassified

Identificação de SNPs para conteúdo de ácidos graxos em soja pela técnica HRM

Cruz

Bueno²,

Souza³

et al. 2013

Pesq. agropec. bras.

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Resumo -O objetivo deste trabalho foi identificar SNPs em genes associados ao conteúdo de ácidos graxos em soja e implementar a metodologia "high resolution melting" (HRM) para genotipagem desses SNPs. Os iniciadores HRM foram desenhados para discriminar os alelos SNPs em duas populações de mapeamento (RILs e F 2 ) e seguiram o padrão esperado de segregação. Os SNPs do gene ABI associaram-se significativamente ao conteúdo de ácido esteárico (R 2 = 12,14), e os do gene FAD3B, aos conteúdos de ácido oleico (R 2 = 14,69) e linolênico (R 2 = 10,62). A técnica de genotipagem dos SNPs por HRM é eficiente na discriminação das classes genotípicas.Termos para a indexação: genotipagem, marcador molecular, melhoramento vegetal, polimorfismos de nucleotídeo único, seleção assistida por marcadores. Identification of SNPs for fatty acid content in soybean by the HRM techniqueAbstract -The objective of this work was to identify SNPs in genes associated with fatty acid content in soybean and to implement the high resolution melting (HRM) technique for SNP genotyping. HRM primers were designed to discriminate SNP alleles in two mapping populations (RILs and F 2 ) and followed the expected pattern of segregation. The ABI gene SNPs were significantly associated with stearic acid content (R 2 = 12.14), and the ones from the FAD3B gene, with oleic (R 2 = 14.69) and linolenic acid (R 2 = 10.62) contents. The technique of genotyping SNPs by HRM is efficient to discriminate genotype classes.

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“…In order to determine the molecular bases of the LLA and 3lx traits, four ω-3 fatty acid desaturases (Fad3A, Fad3B, Fad3C and Fad3D) and three LX genes (Lx1, Lx2 and Lx3) were sequenced in RG10 and OX948. The mutations in Fad3A gene (same as C1640) and the first characterized mutation in Fad3B gene, make RG10 an attractive source of the LLA trait (Reinprecht et al, 2009). A potential immediate use of RG10 (or its derivatives) is to produce very low LA content soybeans by crossing with lines containing the fan mutation only.…”

Section: Molecular Basis Of Lla and 3lx Traitsmentioning

confidence: 99%

“…The initial EMS treatment of the cultivar Century (approximately 70 g kg -1 of linolenic acid) produced line C1640 (Wilcox et al, 1984) with the mutation at the Fad3A ω-3 fatty acid deasturase gene (Chappel & Bilyeu, 2006) resulting in about 50% reduction of LA content (34 g kg -1 ). Further reduction of LA (approximately 30%) to less then 25 g kg -1 , was achieved by mutating the Fad3B gene of C1640 by the EMS treatment to produce RG10 (Reinprecht et al, 2009). Therefore, RG10 has the first mutation in the Fad3A gene [same as C1640, fan(C1640) allele] and the second mutation in the Fad3B gene (fan-b allele).…”

Section: Mutation In Fad3 Genesmentioning

confidence: 99%

“…Several markers were developed for ω-3 fatty acid desaturase alleles leading to low levels of LA (Reinprecht et al, 2009) and three seed LX nulls in soybean seed . These markers are useful to distinguish between the presence and absence of seed LX (LX1 + LX2 and LX3) as well between the high and low LA levels in a wide range of Ontario soybean germplasm.…”

Section: Gene-based Markers For Lla and Lx3 Traitsmentioning

confidence: 99%

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