New sources of soybean seed meal and oil composition traits identified through TILLING

<p>Abstract</p> <p>Background</p> <p>Several techniques are available to study gene function, but many are less than ideal for soybean. Reverse genetics, a relatively new approach, can be utilized to identify novel mutations in candidate genes; this technique has not pr...

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Main Authors: Bilyeu Kristin D, Dierking Emily C
Format: Article
Language:English
Published: BMC 2009-07-01
Series:BMC Plant Biology
Online Access:http://www.biomedcentral.com/1471-2229/9/89
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spelling doaj-241b062a6abc497aa276cbfcef91f1502020-11-25T00:38:53ZengBMCBMC Plant Biology1471-22292009-07-01918910.1186/1471-2229-9-89New sources of soybean seed meal and oil composition traits identified through TILLINGBilyeu Kristin DDierking Emily C<p>Abstract</p> <p>Background</p> <p>Several techniques are available to study gene function, but many are less than ideal for soybean. Reverse genetics, a relatively new approach, can be utilized to identify novel mutations in candidate genes; this technique has not produced an allelic variant with a confirmed phenotype in soybean. Soybean raffinose synthase genes and microsomal omega-6 fatty acid desaturase genes were screened for novel alleles in mutagenized soybean populations.</p> <p>Results</p> <p>Four mutations in independent lines were identified in the raffinose synthase gene <it>RS2</it>; two mutations resulted in amino acid mutations and one resulted in an altered seed oligosaccharide phenotype. The resulting phenotype was an increase in seed sucrose levels as well as a decrease in both raffinose and stachyose seed oligosaccharide levels. Three mutations in independent lines were identified in the omega-6 fatty acid desaturase gene <it>FAD2-1A</it>; all three mutations resulted in missense amino acid mutations and one resulted in an altered seed fatty acid profile that led to an increase in oleic acid and a decrease in linoleic acid in the seed oil.</p> <p>Conclusion</p> <p>The oligosaccharide phenotype controlled by the novel <it>RS2 </it>allele is similar to previously observed seed oligosaccharide phenotypes in <it>RS2 </it>mutant (PI 200508) allele-containing lines. Due to the anti-nutritional characteristics of raffinose and stachyose, this represents a positive change in seed composition. The fatty acid phenotype controlled by the novel <it>FAD2-1A </it>allele controls an increase in oleic acid in the seed oil, a phenotype also observed in a line previously characterized to have a null allele of the <it>FAD2-1A </it>gene. Molecular marker assays were developed to reliably detect the inheritance of the mutant alleles and can be used in efficient breeding for these desired seed phenotypes. Our results serve as the first demonstration of the identification of soybean mutants controlling seed phenotypes discovered through the reverse genetics technique TILLING.</p> http://www.biomedcentral.com/1471-2229/9/89
collection DOAJ
language English
format Article
sources DOAJ
author Bilyeu Kristin D
Dierking Emily C
spellingShingle Bilyeu Kristin D
Dierking Emily C
New sources of soybean seed meal and oil composition traits identified through TILLING
BMC Plant Biology
author_facet Bilyeu Kristin D
Dierking Emily C
author_sort Bilyeu Kristin D
title New sources of soybean seed meal and oil composition traits identified through TILLING
title_short New sources of soybean seed meal and oil composition traits identified through TILLING
title_full New sources of soybean seed meal and oil composition traits identified through TILLING
title_fullStr New sources of soybean seed meal and oil composition traits identified through TILLING
title_full_unstemmed New sources of soybean seed meal and oil composition traits identified through TILLING
title_sort new sources of soybean seed meal and oil composition traits identified through tilling
publisher BMC
series BMC Plant Biology
issn 1471-2229
publishDate 2009-07-01
description <p>Abstract</p> <p>Background</p> <p>Several techniques are available to study gene function, but many are less than ideal for soybean. Reverse genetics, a relatively new approach, can be utilized to identify novel mutations in candidate genes; this technique has not produced an allelic variant with a confirmed phenotype in soybean. Soybean raffinose synthase genes and microsomal omega-6 fatty acid desaturase genes were screened for novel alleles in mutagenized soybean populations.</p> <p>Results</p> <p>Four mutations in independent lines were identified in the raffinose synthase gene <it>RS2</it>; two mutations resulted in amino acid mutations and one resulted in an altered seed oligosaccharide phenotype. The resulting phenotype was an increase in seed sucrose levels as well as a decrease in both raffinose and stachyose seed oligosaccharide levels. Three mutations in independent lines were identified in the omega-6 fatty acid desaturase gene <it>FAD2-1A</it>; all three mutations resulted in missense amino acid mutations and one resulted in an altered seed fatty acid profile that led to an increase in oleic acid and a decrease in linoleic acid in the seed oil.</p> <p>Conclusion</p> <p>The oligosaccharide phenotype controlled by the novel <it>RS2 </it>allele is similar to previously observed seed oligosaccharide phenotypes in <it>RS2 </it>mutant (PI 200508) allele-containing lines. Due to the anti-nutritional characteristics of raffinose and stachyose, this represents a positive change in seed composition. The fatty acid phenotype controlled by the novel <it>FAD2-1A </it>allele controls an increase in oleic acid in the seed oil, a phenotype also observed in a line previously characterized to have a null allele of the <it>FAD2-1A </it>gene. Molecular marker assays were developed to reliably detect the inheritance of the mutant alleles and can be used in efficient breeding for these desired seed phenotypes. Our results serve as the first demonstration of the identification of soybean mutants controlling seed phenotypes discovered through the reverse genetics technique TILLING.</p>
url http://www.biomedcentral.com/1471-2229/9/89
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