Genetic diversity and differentiation of the Hainan Tall coconut (Cocos nucifera L.) as revealed by inter-simple sequence repeat markers
文献类型: 外文期刊
作者: Pan, Kun 1 ; Wang, Wenquan 2 ; Wang, Haiyan 2 ; Fan, Haikuo 1 ; Wu, Yi 1 ; Tang, Longxiang 1 ;
作者机构: 1.Chinese Acad Trop Agr Sci, Coconut Res Inst, Wenchang 571339, Hainan, Peoples R China
2.Chinese Acad Trop Agr Sci, Inst Trop Biosci & Biotechnol, Haikou 571101, Hainan, Peoples R China
3.Hainan Med Univ, Haikou 571199, Hainan, Peoples R China
关键词: Cocos nucifera;Genetic diversity;Differentiation;Origin
期刊名称:GENETIC RESOURCES AND CROP EVOLUTION ( 影响因子:1.524; 五年影响因子:1.713 )
ISSN: 0925-9864
年卷期: 2018 年 65 卷 3 期
页码:
收录情况: SCI
摘要: Hainan Tall coconut (Cocos nucifera L.), which show the advantageous characteristics of high yield, hardiness, and wind resistance, is the dominant coconut population in Hainan Island, the main area of coconut production in China. An understanding of the genetic diversities and origins of the Hainan Tall population is essential to effective breeding. To achieve this aim, we used dozens of inter-simple sequence repeat molecular markers to characterize the genetic diversity among Hainan Tall and other coconut accessions outside China. Results revealed that Hainan Tall consisted of two main subgroups reflecting different geographic distributions (such as northern vs. southern parts of Hainan Island), and other accessions lacking clear location trends because of human activities. Diversity analysis revealed that the Hainan Tall population exhibits a higher genetic diversity than that of exotic populations mostly collected from Southeast Asia. The phylogenetic clustering results indicated that the Hainan Tall population is domesticated separately from (and earlier than) other coconut accessions, and the differentiation existed within the Hainan Tall population. Among other causes, this notion may explain the high diversity within the Hainan Tall population. Overall, these findings provide a preliminary scenario of the genetic diversities and origins of the Hainan Tall population.
- 相关文献
作者其他论文 更多>>
-
MePHD1.2 affects the synthesis of cyanogenic glycosides by regulating of MeCYP79D2 in cassava
作者:Li, Mengtao;Li, Yajun;Mai, Weitao;Khan, Luqman;Wang, Wenquan;Liu, Jinping;Chen, Xin;Li, Mengtao;Li, Yajun;Mai, Weitao;Khan, Luqman;Wang, Wenquan;Liu, Jinping;Chen, Xin;Li, Mengtao;Zhao, Xiao;Li, Yajun;Li, Yuanchao;Mai, Weitao;Chen, Xin;Zhao, Xiao;Li, Yuanchao;Zhao, Xiaoye;Liang, Qibing;Yin, Qingchun;Li, Yajun;Chen, Xin
关键词:Cyanogenic glycosides; Cytochrome P450; Manihot esculenta; MePHD1.2
-
Identification of the cassava NADP-ME gene family and its response and regulation in photosynthesis
作者:Li, Haozheng;Xiao, Jin;Chen, Jiahui;Shen, Xu;Luo, Jia;Guo, Fengguang;Xu, Liangye;Guo, Xin;Wang, Shujuan;Wang, Wenquan;Wang, Shangfei;Wang, Haiyan
关键词:C-3-C-4 intermediate photosynthesis; NADP-ME; cassava; C-4 evolution; coexpression network
-
Water lily pond: a multiomics database for water lilies
作者:Zhao, Chengjun;Zhang, Ji;Chen, Yayu;Yang, Lishuang;Chen, Hongliang;Liang, Yufan;Wang, Wenquan;He, Shuang;Luo, Yunqing;Zhang, Junyu;Zhang, Hongbin;Yang, Shuting;Guo, Guilian;Dai, Wenbai;Yang, Zhijuan;Khan, Wasi Ullah;Chen, Fei;Zhao, Chengjun;Zhang, Ji;Chen, Yayu;Yang, Lishuang;Chen, Hongliang;Liang, Yufan;Wang, Wenquan;He, Shuang;Luo, Yunqing;Zhang, Junyu;Zhang, Hongbin;Yang, Shuting;Guo, Guilian;Dai, Wenbai;Khan, Wasi Ullah;Chen, Fei;Chen, Junhao;Zhou, Yuhan;Zhang, Liangsheng;Liu, Guanhua;Jiang, Yifan;Xu, Yingchun;Xue, Jia-yu;Zhu, Tianlong;Garcia-Caparros, Pedro;van de Peer, Yves;van de Peer, Yves;van de Peer, Yves;van de Peer, Yves;Chen, Chengjie
关键词:
-
Improving gene editing of CRISPR/Cas9 using the callus-specific promoter pYCE1 in cassava (Manihot esculenta Crantz)
作者:Li, Yuanchao;Li, Youzhi;Li, Yuanchao;Bao, Ruxue;Li, Mengtao;Yang, Haojie;Yao, Yuan;Chen, Xin;Bao, Ruxue;Li, Mengtao;Zeng, Changying;Yang, Haojie;Wang, Wenquan;Yao, Yuan;Chen, Xin;Yao, Yuan;Chen, Xin
关键词:cassava; callus; promoter; gene editing; target
-
Beyond nitrate transport: AtNRT2.4 responds to local and systemic nitrogen signaling in Arabidopsis
作者:Zhang, Huaifang;Li, Yanmei;Zhao, Jinling;Mai, Weitao;Khan, Luqman;Wang, Wenquan;Zeng, Changying;Chen, Xin;Zhang, Huaifang;Huang, Jinxia;Li, Yanmei;Zhao, Jinling;Mai, Weitao;Chen, Xin;Zhang, Meng
关键词:Nitrate deficiency; Local N-deficiency signals; Systemic nitrate signals; Root architecture; Anthocyanin accumulation
-
Advancements and strategies of genetic improvement in cassava (Manihot esculenta Crantz): from conventional to genomic approaches
作者:Xiao, Liang;Cheng, Dong;Yan, Huabing;Ou, Wenjun;Li, Kaimian;Chen, Xin;Rabbi, Ismail Yusuf;Wang, Wenquan
关键词:
-
Pan-genome and haplotype map of cassava cultivars and wild ancestors provide insights into its adaptive evolution and domestication
作者:Xia, Zhiqiang;Zhou, Xincheng;Jiang, Sirong;Chen, Fei;Zou, Meiling;Xu, Liangye;Guo, Xin;Wang, Shujuan;Li, Mengtao;Liu, Shisheng;Bao, Yuting;Zhang, Chenji;Xiao, Jianjia;Guo, Fengguang;Shen, Xu;Li, Haozheng;Zhang, Huaifang;He, Shuang;Wan, Yinglang;Chen, Yinhua;Huang, Dongyi;Li, Bin;Peng, Ming;Chen, Xin;Wang, Wenquan;Du, Zhenglin;Chen, Meili;Zhao, Wenming;Xiao, Jingfa;Du, Zhenglin;Chen, Meili;Zhao, Wenming;Xiao, Jingfa;Zhou, Xincheng;Wang, Haiyan;Lu, Cheng;Peng, Ming;Chen, Xin;Zhu, Tingting;Wang, Le;Luo, Ming-Cheng;Qiao, Fei;Li, Kaimian;Carvalho, Luiz;Lopez-Lavalle, Luis Augusto Becerra;Zhang, Xiaofei;Ceballos, Hernan;Wang, Zhenyu;Li, Yuanchao;Zhao, Long;Yan, Huabing;Qin, Xiaochun;Ma, Ling;Zhang, Weixiong;Moller, Birger Lindberg
关键词:genome; pan-genome; structural variations; selective sweeping; evolution and domestication; cassava
