Use of Self-Compatibility and Modifier Genes for Breeding and Genetic Analysis in Common Buckwheat (<I>Fagopyrum esculentum</I>)
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概要
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Common buckwheat plants have heteromorphic self-incompatibility. Using two self-fertilizing lines, we revealed that there are two distinct systems of self-compatibility, one using a self-compatible allele, <I>S<SUP>h</SUP></I>, the other using modifier genes located outside the <I>S</I> locus and suppressing the functions of the <I>S</I>-locus genes. <I>S<SUP>h</SUP></I> appears to have been produced by recombination in the <I>S</I> supergene (<I>gi<SUP>S</SUP>I<SUP>P</SUP>PA/gi<SUP>S</SUP>I<SUP>P</SUP>PA</I>), in which each gene is functional. The modifier genes control the intensity of self-incompatibility and have three distinctive features: (1) Pollen shows cross-compatibility with styles of all flower types, although the compatibility is influenced by the genetic background of those plants. (2) Flower morphology of F<SUB>1</SUB> plants is controlled by the genotype of the <I>S</I> locus. (3) F<SUB>1</SUB> plants show high self-compatibility, although the level of self-compatibility is influenced by genetic background. The use of these genes for buckwheat breeding is discussed.
- 独立行政法人 国際農林水産業研究センターの論文
著者
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MATSUI Katsuhiro
Research Team for Biomass and Industrial Crop, National Agricultural Research Center for Kyushu Okinawa Region
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NISHIO Takeshi
Laboratory of Plant Breeding and Genetics, Tohoku University
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TETSUKA Takahisa
Research Team for Biomass and Industrial Crop, National Agricultural Research Center for Kyushu Okinawa Region