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A novel GmFAD3-2a mutant allele developed through TILLING reduces ?-linolenic acid content in soybean seed oil.


ABSTRACT: Soybean (Glycine max (L.) Merr.) oil typically contains 8% ?-linolenic acid that is highly unstable and easily oxidized. This property is undesirable in many food and industrial applications. Genetic strategies for reducing ?-linolenic acid content would enhance the commercial value. However, genetic resources for low ?-linolenic acid content are limited among natural soybean variations. Microsomal omega-3-fatty acid desaturase (FAD3) is responsible for the synthesis of ?-linolenic acid in the polyunsaturated fatty acid pathway. There are four FAD3 homologs (Glyma02g39230, Glyma11g27190, Glyma14g37350 and Glyma18g06950) in the soybean genome. While non-functional alleles have been reported for Glyma02g39230 (GmFAD3-1a) and Glyma14g37350 (GmFAD3-1b), little variation is seen in Glyma18g06950 (GmFAD3-2a). We isolated seven mutant GmFAD3-2a alleles, each containing a single-nucleotide substitution, from 39,100 independent mutant lines by using targeting induced local lesions in genomes (TILLING). Analysis of GmFAD3-2a transcripts and enzyme activities revealed that one missense mutant, 'P1-A9', contains a non-functional allele of GmFAD3-2a. By combining three non-functional alleles (GmFAD3-1a, GmFAD3-1b, and GmFAD3-2a), we generated soybean lines containing <2% ?-linolenic acid in their seeds. The reverse-genetics-based development of novel mutant alleles in the fatty acid metabolic pathway will allow the improvement of soybean with better oil quality through conventional breeding.

SUBMITTER: Hoshino T 

PROVIDER: S-EPMC4267312 | biostudies-literature | 2014 Dec

REPOSITORIES: biostudies-literature

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A novel GmFAD3-2a mutant allele developed through TILLING reduces α-linolenic acid content in soybean seed oil.

Hoshino Tomoki T   Watanabe Satoshi S   Takagi Yutaka Y   Anai Toyoaki T  

Breeding science 20141201 4


Soybean (Glycine max (L.) Merr.) oil typically contains 8% α-linolenic acid that is highly unstable and easily oxidized. This property is undesirable in many food and industrial applications. Genetic strategies for reducing α-linolenic acid content would enhance the commercial value. However, genetic resources for low α-linolenic acid content are limited among natural soybean variations. Microsomal omega-3-fatty acid desaturase (FAD3) is responsible for the synthesis of α-linolenic acid in the p  ...[more]

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