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- Title
Identification of the molecular genetic basis of the low palmitic acid seed oil trait in soybean mutant line RG3 and association analysis of molecular markers with elevated seed stearic acid and reduced seed palmitic acid.
- Authors
Gillman, Jason; Tetlow, Ashley; Hagely, Katherine; Boersma, Jeffery; Cardinal, Andrea; Rajcan, Istvan; Bilyeu, Kristin
- Abstract
The fatty acid composition of vegetable oil is becoming increasingly critical for its ultimate functionality and utilization in foods and industrial products. Partial chemical hydrogenation of soybean [ Glycine max (L.) Merr.] oil increases oxidative stability and shelf life but also results in the introduction of trans fats as an unavoidable byproduct. Due to mandatory labeling of consumer products containing trans fats, conventional soybean oil has lost the ability to deliver the most appropriate economical functionality and oxidative stability, particularly for baking applications. Genetic improvement of the fatty acid profile of soybean oil is one method of meeting these new requirements for oil feedstocks. In this report, we characterized three mutant genetic loci controlling the saturated fatty acid content of soybean oil: two genes additively reduce palmitic acid content ( fap1 and fap3- ug), and one gene independently elevates stearic acid content ( fas). We identified a new null allele of fap3- ug/ GmFATB1A (derived from line ELLP2) present in line RG3. The splicing defect mutation in a beta- ketoacyl- [acyl- carrier- protein] synthase III candidate gene located in the region mapped to fap1, derived originally from ethyl methane sulphonate mutant line C1726 (Cardinal et al. in Theor Appl Genet 127:97-111, ), was also present in line RG3. We also utilized the elevated stearic acid line RG7, which has previously been shown to contain novel mutant fas/SACPD- C alleles encoding stearoyl-acyl carrier protein desaturase (Boersma et al. in Crop Sci 52:1736-1742, ). Molecular marker assays have been developed to track these causative mutations and understand their contributions to seed oil fatty acid profiles in a recombinant inbred line population segregating for fap1, fap3- ug, and fas alleles.
- Subjects
PLANT molecular genetics; PALMITIC acid; SOY oil; PLANTS; BIOMARKERS; STEARIC acid; MUTAGENESIS
- Publication
Molecular Breeding, 2014, Vol 34, Issue 2, p447
- ISSN
1380-3743
- Publication type
Academic Journal
- DOI
10.1007/s11032-014-0046-y