Evidence from genome-wide simple sequence repeat markers for a polyphyletic origin and secondary centers of genetic diversity of Brassica juncea in China and India

文献类型: 外文期刊

第一作者: Chen, Sheng

作者: Chen, Sheng;Nelson, Matthew N.;Chen, Sheng;Nelson, Matthew N.;Cowling, Wallace A.;Wan, Zhenjie;Fu, Tingdong;Chauhan, Jitendra S.;Redden, Robert;Burton, Wayne A.;Salisbury, Phillip A.;Lin, Ping;Salisbury, Phillip A.

作者机构:

关键词: allelic diversity;crop evolution;Indian mustard;migration route;oriental mustard

期刊名称:JOURNAL OF HEREDITY ( 影响因子:2.645; 五年影响因子:3.069 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: The oilseed Brassica juncea is an important crop with a long history of cultivation in India and China. Previous studies have suggested a polyphyletic origin of B. juncea and more than one migration from the primary to secondary centers of diversity. We investigated molecular genetic diversity based on 99 simple sequence repeat markers in 119 oilseed B. juncea varieties from China, India, Europe, and Australia to test whether molecular differentiation follows Vavilov's proposal of secondary centers of diversity in India and China. Two distinct groups were identified by markers in the A genome, and the same two groups were confirmed by markers in the B genome. Group 1 included accessions from central and western India, in addition to those from eastern China. Group 2 included accessions from central and western China, as well as those from northern and eastern India. European and Australian accessions were found only in Group 2. Chinese accessions had higher allelic diversity per accession (Group 1) and more private alleles per accession (Groups 1 and 2) than those from India. The marker data and geographic distribution of Groups 1 and 2 were consistent with two independent migrations of B. juncea from its center of origin in the Middle East and neighboring regions along trade routes to western China and northern India, followed by regional adaptation. Group 1 migrated further south and west in India, and further east in China, than Group 2. Group 2 showed diverse agroecological adaptation, with yellow-seeded spring-sown types in central and western China and brown-seeded autumn-sown types in India.

分类号: R394

  • 相关文献

[1]Expression and relationships of resistance to white rust (Albugo candida) at cotyledonary, seedling, and. flowering stages in Brassica juncea germplasm from Australia, China, and India. Li, C. X.,Sivasithamparam, K.,Walton, G.,Salisbury, P.,Burton, W.,Banga, Surinder S.,Banga, Shashi,Chattopadhyay, C.,Kumar, A.,Singh, R.,Singh, D.,Agnohotri, A.,Liu, S. Y.,Li, Y. C.,Fu, T. D.,Wang, Y. F.,Barbetti, M. J.. 2007

[2]Genetic variation and phylogenetic relationship analysis of Jatropha curcas L. inferred from nrDNA ITS sequences. Guo, Guo-Ye,Chen, Fang,Shi, Xiao-Dong,Tian, Yin-Shuai,Guo, Guo-Ye,Yu, Mao-Qun,Han, Xue-Qin,Yuan, Li-Chun,Zhang, Ying.

[3]Investigation of the genetic diversity of an invasive whitefly (Bemisia tabaci) in China using both mitochondrial and nuclear DNA markers. Gao, C. S.,Chu, D.,Gao, C. S.,Gao, C. S.,De Barro, P.,Wan, F. H.,Zhang, Y. J..

[4]The transferability and polymorphism of mung bean SSR markers in rice bean germplasm. Wang, Li Xia,Chen, Hong Lin,Bai, Peng,Wu, Jian Xin,Wang, Su Hua,Cheng, Xu Zhen,Blair, Matthew W..

[5]Simultaneous improvement and genetic dissection of grain yield and its related traits in a backbone parent of hybrid rice (Oryza sativa L.) using selective introgression. Zhang, Hongjun,Wang, Hui,Qian, Yiliang,Shi, Yingyao,Zhu, Linghua,Gao, Yongming,Li, Zhikang,Qian, Yiliang,Shi, Yingyao,Xia, Jiafa,Li, Zefu,Ali, Jauhar.

[6]Allelic diversity and geographical pattern at soybean Kunitz trypsin inhibitor single locus in Chinese wild soybean (Glycine soja Sieb. & Zucc.). Wang, K. J.,Li, X. H.,Takahata, Y.,Yamashita, T..

[7]Seasonal genetic structure in Beijing populations of the grain aphid Sitobion miscanthi (Takahashi): an investigation using microsatellites. Wang, Yong-Mo,Shen, Zuo-Rui,Gao, Ling-Wang,Wang, Yong-Mo,Zhang, Guo-Liang.

作者其他论文 更多>>

微信小程序