Searching for Myanmar indigenous Bradyrhizobium type C strains that best identify Rj4 genotypes in soybean

Aung Zaw Htwe, Kenjirou Taira, Takeo Yamakawa

研究成果: ジャーナルへの寄稿記事

抄録

Bradyrhizobium species are symbiotic partners of soybean plants. However, some Bradyrhizobium bacteria do not form functional nodules on the roots of Rj4 genotype soybean cultivars. Our objective was to identify the strains of Bradyrhizobium (i.e., type C strains) that are least competent to form nodules on the roots of this plant genotype. We checked (i) previously isolated type C strains of Myanmar Bradyrhizobium elkanii (MMY6-1, MMY6-2, and MMY6-5), (ii) previously isolated type C strains of Myanmarese Bradyrhizobium spp. (MMY3-5 and MMY3-7), and (iii) strain Is-34 of B. japonicum, for nodule formation when associated with Rj4 and other Rj genotype soybeans. Strains in groups (i), (ii), and (iii) are known to be incompatible with Rj4 soybean genotypes. MMY3-5 and MMY3-7 produced functional nodules when associated with Rj4 and other Rj genotype soybean cultivars, except Hill (Rj4) cultivar. The ratios of ineffective nodule numbers/total nodule numbers (I/T ratios) for MMY6-1, MMY6-2, MMY6-5, and Is-34 in association with Rj4 soybean cultivars were > 0.5, demonstrating incompatibility between these bacterial strains and the Rj4 genotype. Interestingly, the I/T ratios of MMY6-1 and MMY6-2 were higher than that of Is-34 in almost all Rj4 soybean cultivars. Thus, the nodule-forming abilities of the B. elkanii strains MMY6-1 and MMY6-2 were strongly suppressed in Rj4 soybean cultivars; these strains may therefore be useful to identify the Rj4 genotype in soybean cultivars.

元の言語英語
ページ(範囲)228-233
ページ数6
ジャーナルSoil Science and Plant Nutrition
65
発行部数3
DOI
出版物ステータス出版済み - 5 4 2019

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Bradyrhizobium
Myanmar
soybean
genotype
soybeans
cultivar
cultivars
Bradyrhizobium elkanii
Bradyrhizobium japonicum
incompatibility
bacterium
bacteria

All Science Journal Classification (ASJC) codes

  • Soil Science
  • Plant Science

これを引用

Searching for Myanmar indigenous Bradyrhizobium type C strains that best identify Rj4 genotypes in soybean. / Htwe, Aung Zaw; Taira, Kenjirou; Yamakawa, Takeo.

:: Soil Science and Plant Nutrition, 巻 65, 番号 3, 04.05.2019, p. 228-233.

研究成果: ジャーナルへの寄稿記事

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abstract = "Bradyrhizobium species are symbiotic partners of soybean plants. However, some Bradyrhizobium bacteria do not form functional nodules on the roots of Rj4 genotype soybean cultivars. Our objective was to identify the strains of Bradyrhizobium (i.e., type C strains) that are least competent to form nodules on the roots of this plant genotype. We checked (i) previously isolated type C strains of Myanmar Bradyrhizobium elkanii (MMY6-1, MMY6-2, and MMY6-5), (ii) previously isolated type C strains of Myanmarese Bradyrhizobium spp. (MMY3-5 and MMY3-7), and (iii) strain Is-34 of B. japonicum, for nodule formation when associated with Rj4 and other Rj genotype soybeans. Strains in groups (i), (ii), and (iii) are known to be incompatible with Rj4 soybean genotypes. MMY3-5 and MMY3-7 produced functional nodules when associated with Rj4 and other Rj genotype soybean cultivars, except Hill (Rj4) cultivar. The ratios of ineffective nodule numbers/total nodule numbers (I/T ratios) for MMY6-1, MMY6-2, MMY6-5, and Is-34 in association with Rj4 soybean cultivars were > 0.5, demonstrating incompatibility between these bacterial strains and the Rj4 genotype. Interestingly, the I/T ratios of MMY6-1 and MMY6-2 were higher than that of Is-34 in almost all Rj4 soybean cultivars. Thus, the nodule-forming abilities of the B. elkanii strains MMY6-1 and MMY6-2 were strongly suppressed in Rj4 soybean cultivars; these strains may therefore be useful to identify the Rj4 genotype in soybean cultivars.",
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