Two high-oleic-acid soybean mutants, M23 and KK21, have disrupted microsomal omega-6 fatty acid desaturase, encoded by GmFAD2-1a
スポンサーリンク
概要
- 論文の詳細を見る
Elevating the oleic acid content of soybean (Glycine max (L.) Merr.) is a major focus of breeding programs. Previously, we created two high-oleic-acid soybean mutants, M23 and KK21, by X-irradiation. We expected them to have modifications in genes encoding microsomal omega-6 fatty acid desaturase. The objectives of this study were to evaluate which members of the GmFAD2 gene family contribute to oleic acid production during seed maturation, to characterize the mutant genes, and to establish molecular markers for breeding of high-oleic-acid soybeans. Three GmFAD2 genes were expressed in developing seeds; the gene products of GmFAD2-1a and GmFAD2-1b were more active than that of GmFAD2-2a during seed development. We identified different nucleotide modifications in GmFAD2-1a in M23 and KK21. Using nuclease-cleaved DNA fragment-length polymorphisms, we developed a novel molecular marker to distinguish between KK21 mutant and wild-type alleles. This information could be useful for improving soybean oil quality by using the mutant genes from M23 or KK21, and for screening novel high-oleic-acid soybean mutants.
- 日本育種学会の論文
著者
-
Rahman S
Laboratory Of Plant Genetics And Breeding Faculty Of Agriculture Saga University:(present Office)nat
-
Anai Toyoaki
Laboratory of Plant Genetics and Breeding, Faculty of Agriculture, Saga University
-
Yamada Tomoko
Laboratory of Plant Genetics and Breeding, Faculty of Agriculture, Saga University
-
Hideshima Rumiko
Laboratory of Plant Genetics and Breeding, Faculty of Agriculture, Saga University
-
Kinoshita Takehito
Laboratory of Plant Genetics and Breeding, Faculty of Agriculture, Saga University
-
Rahman Shaikh
Laboratory of Plant Genetics and Breeding, Faculty of Agriculture, Saga University
-
Takagi Yutaka
Laboratory of Plant Genetics and Breeding, Faculty of Agriculture, Saga University
-
Anai T
Laboratory Of Plant Genetics And Breeding Faculty Of Agriculture Saga University
-
Anai Toyoaki
Laboratory Of Plant Breeding Faculty Of Agriculture Saga University
-
Anai Toyoaki
Institute Of Applied Biochemistry University Of Tsukuba
-
Rahman Shaikh
Department Of Applied Biological Sciences Faculty Of Agriculture Saga University
-
Takagi Y
Laboratory Of Plant Genetics And Breeding Faculty Of Agriculture Saga University
-
Takagi Yasunari
Department Of Applied Physics And Chemistry The University Of Electro-communications
-
Hideshima Rumiko
Laboratory Of Plant Genetics And Breeding Faculty Of Agriculture Saga University
-
Kinoshita Takehito
Laboratory Of Plant Genetics And Breeding Faculty Of Agriculture Saga University:(present Office)sag
-
Kinoshita T
Laboratory Of Plant Genetics And Breeding Faculty Of Agriculture Saga University:(present Office)sag
-
Takagi Yutaka
Laboratory Of Plant Genetics And Breeding Faculty Of Agriculture Saga University
-
Takagi Yutaka
Laboratory Enzymology And Microbial Chemistry Tokyo University Of Agriculture And Technology
-
Yamada Tomoko
Laboratory Of Plant Genetics And Breeding Faculty Of Agriculture Saga University
-
Anai Toyoaki
Fac. Of Agriculture Saga Univ.
-
YAMAURA Takashi
Institute of Applied Physics, University of Tsukuba
関連論文
- Ara4 GTPase AND ITS INTERACTANTS
- Two high-oleic-acid soybean mutants, M23 and KK21, have disrupted microsomal omega-6 fatty acid desaturase, encoded by GmFAD2-1a
- Three Novel Soybean Germplasms with Unique Fatty Acid Composition using Multiple Mutant Alleles
- LIGHT-INDUCED PLANT GROWTH INHIBITORS FROM SUNFLOWER(HELIANTHUS ANNUUSL. )SEEDLINGS
- EFFECT OF PHOTOTROPISM-REGULATED GROWTH INHIBITORS FOR AUXIN-BINDING ACTIVITY OF MEMBRANE ASSOCIATED AUXINBINDING PROTEIN(ABP1)
- Conjugated Linoleic Acid Reduces Hepatic Microsomal Triacylglycerol Transfer Protein Activity and Hepatic Triacylglycerol Mass in Obese Rats
- Comparison of the Effects of Triacylglycerol-CLA and Free Fatty Acid-CLA on Hepatic Lipid Metabolism in OLETF Obese Rats
- Mode of Action on Fluorogenic Substrates of Acid Carboxy-peptidases from Aspergillus(Biological Chemistry)
- Development of a Reduced Linolenate Soy Mutant by Re-irradiation and its Genetic Analysis
- ESTABLISHMENT OF MODEL SYSTEM FORANALYZING INTRACELLULAR TRANSPORT OF THE PLANT CELLS
- QTL Analysis for Resistance to Phytophthora Blight (Phytophthora capsici Leon.) Using an Intraspecific Doubled-Haploid Population of Capsicum annuum
- Rapid Construction of a Linkage Map using High-efficiency Genome Scanning/AFLP and RAPD, Based on an Intraspecific, Doubled-haploid Population of Capsicum annuum
- Development of SCAR Markers Linked to L^3 gene in Capsicum
- Isolation and Characterization of 4-Chloro-6, 7-dimethoxybenzoxazolin-2-one, A New Auxin-inhibiting Benzoxazolinone from Zea mays
- Transverse Susceptibility and E-mode Raman Spectra of a KH_2PO_4 Crystal
- Effects of Deuteration on Proton Tunneling Modes and Coupled Optic Modes in the Raman Spectrum of KDP Crystals
- The Biological Roles of Small GTPases and interacting Proteins in Plants
- Raman Spectrum of "Ferroelectric Mode" in a KDP Crytal
- Brillouin Scattering Study on KNO_3 Crystal : Appearance of Intermediate Phase on Heating
- Brillouin Scattering Studies of Liquid-Glass Transition in n-Propanol as a Function of Temperature and Pressure
- Brillouin Scattering in Optical Fibers
- Brillouin Scattering Studies of Liquid-Glass Transition in Normal-and Iso-Propanols
- Brillouin Scattering of Urea-Doped Thiourea
- Novel GmFAD2-1b mutant alleles created by reverse genetics induce marked elevation of oleic acid content in soybean seeds in combination with GmFAD2-1a mutant alleles
- PHUSIOLOGICAL FUNCTION OF LEPIDIMOIDE
- ISOLATION AND CHARACTERIZATION OFANTI-AUXIN SUBSTANCES IN LIGHT-TREATED MAIZE SEEDLINGS
- Dynamical Properties of Glass Transition in n-Propanol
- Molecular characterization of two high-palmitic-acid mutant loci induced by X-ray irradiation in soybean
- Potential of a mutant-based reverse genetic approach for functional genomics and molecular breeding in soybean