期刊
GENES & GENETIC SYSTEMS
卷 96, 期 3, 页码 127-137出版社
GENETICS SOC JAPAN
DOI: 10.1266/ggs.20-00066
关键词
Naturalized population; Raphanus sativus L. var. raphanistroides; S allele; self-incompatibility; SRK gene
资金
- MEXT KAKENHI [16H06467, 16H01467, 18H04776, 16H06470, 16H06464, 16K21727]
- JSPS KAKENHI [16H06380, 19K05963, 20H02956, 18H02456, 19H02947, 20K21417, 20K05982, 17H00821, 18KT0048, 19K22342]
- JSPS Bilateral Programs [18032211-000481]
- JST PRESTO [JPMJPR204A]
- NRF Basic Science Research Program, Republic of Korea [NRF-2020R1I1A3073093]
- Global Science Campus program of the Japan Science and Technology Agency
- Grants-in-Aid for Scientific Research [19K22342, 19H02947, 20K05982, 20K21417, 20H02956, 19K05963, 17H00821, 18H04776, 18KT0048, 16H06470, 16H01467, 18H02456] Funding Source: KAKEN
The study in naturalized radish populations on Yakushima, Japan, showed the distribution of S alleles, discovered unique new S alleles, and revealed pollen exchange among plants in close proximity. The high diversity of S alleles in naturalized populations was highlighted, as well as the challenges in PCR amplification due to sequence diversity. This research suggests that exchange of S alleles between cultivars and naturalized populations is common and the methodology developed could be applied to study S allele distribution in other self-incompatible species.
In various coastal areas of Japan, naturalized radish populations are observed. Radish is a cruciferous plant and exhibits self-incompatibility, involving a system controlled by a single locus with multiple S alleles. Although the S allele diversity of radish cultivars and wild radishes has been characterized, the S allele distribution in naturalized populations has not yet been analyzed in relation to the positions of the plants in situ. Here, we show the S allele distribution in naturalized radish populations of Yakushima, a small island in the East China Sea, with positions of the plants. Radish plants were sampled in coastal areas in Yakushima, and their S alleles were detected and characterized. Most of the S alleles had been previously identified in radish cultivars. However, four novel S alleles, which may be unique to Yakushima, were also found. Moreover, seeds in siliques from plants growing in the study areas were sampled, and S allele determination in DNA extracted from these seeds suggested that the plants had exchanged their pollen among their close neighbors. There was also a problem in that the PCR amplification of some SRK alleles was difficult because of their sequence diversity in the naturalized populations, as occurs in cultivars. Our results suggest that the exchange of S alleles between cultivars and naturalized populations occurs and that S alleles in naturalized populations are highly diverse. The methodology established in our study should be applicable to other self-incompatible species to dissect the diversity of S allele distribution in naturalized populations.
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