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Production and characterization of intergeneric hybrids by crossing radish with turnip and with Chinese kale
Euphytica ( IF 1.9 ) Pub Date : 2020-05-21 , DOI: 10.1007/s10681-020-02622-w Ping Jin , Zhiyu Zhu , Xiaocan Guo , Fangfang Chen , Yuanyuan Wu , Jiahong Chen , Jianguo Wu , Zhujun Zhu
Euphytica ( IF 1.9 ) Pub Date : 2020-05-21 , DOI: 10.1007/s10681-020-02622-w Ping Jin , Zhiyu Zhu , Xiaocan Guo , Fangfang Chen , Yuanyuan Wu , Jiahong Chen , Jianguo Wu , Zhujun Zhu
Distant hybridization can enrich the genetic background and diversity of crops by combining different species, and integrate the favorable parental traits or create heterosis. In the present study, intergeneric hybridization was performed between radish and turnip and between radish and Chinese kale by hand emasculation followed by tissue culture of putative hybrid seeds. A total of three and one hybrids were obtained from the cross of ‘Long yellow turnip’ and ‘Golden turnip’ with radish, respectively, but no hybrids were obtained in their reverse cross, indicating that the same cross combination has a large difference in the reciprocal crosses, and that the hybrid has certain unidirectionality. The majority of the hybrids of radish and turnip showed male sterility, white petals, and intermediate performance in most morphological traits when compared to their parents. Four true hybrids were obtained by the cross ‘Thin neck round radish’ × ‘Yellow flower kale’, while no hybrids were obtained by reverse cross combination. The hybrids looked more like their Chinese kale parents in having inflated stems. All putative intergeneric hybrids were confirmed by agronomic characteristics, chromosome counting, molecular markers, and pollen viability. Three kinds of hybrids were confirmed as genuine hybrids possessing 19, 19, and 18 chromosomes in their corresponding somatic cells by cytological observation. In addition, three kinds of allotetraploids were produced with 38, 38, and 36 chromosomes when chromosome doubling was achieved. In comparison with the diploid hybrid, the pollen viabilities of allotetraploids were significantly improved and a small number of seeds were produced. The improvements of these amphihaploids as useful genetic resources and the potential of intergeneric hybridization to enlarge the gene pool for radish, turnip, and Chinese kale breeding are discussed.
更新日期:2020-05-21
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