Identification of Sesame Genomic Variations from Genome Comparison of Landrace and Variety

文献类型: 外文期刊

第一作者: Wei, Xin

作者: Wei, Xin;Zhu, Xiaodong;Yu, Jingyin;Wang, Linhai;Zhang, Yanxin;Li, Donghua;Zhou, Rong;Zhang, Xiurong

作者机构:

关键词: sesame;genome comparison;genomic variation;SNP;Indel;landrace

期刊名称:FRONTIERS IN PLANT SCIENCE ( 影响因子:5.753; 五年影响因子:6.612 )

ISSN: 1664-462X

年卷期: 2016 年 7 卷

页码:

收录情况: SCI

摘要: Sesame (Sesamum indicum L.) is one of the main oilseed crops, providing vegetable oil and protein to human. Landrace is the gene source of variety, carrying many desire alleles for genetic improvement. Despite the importance of sesame landrace, genome of sesame landrace remains unexplored and genomic variations between landrace and variety still is not clear. To identify the genomic variations between sesame landrace and variety, two representative sesame landrace accessions, "Baizhima" and "Mishuozhima," were selected and re-sequenced. The genome sequencing and de novo assembling of the two sesame landraces resulted in draft genomes of 267 Mb and 254 Mb, respectively, with the contig N50 more than 47 kb. Totally, 1,332,025 SNPs and 506,245 InDels were identified from the genome of "Baizhima" and "Mishuozhima" by comparison of the genome of a variety "Zhongzhi13." Among the genomic variations, 70,018 SNPs and 8311 InDels were located in the coding regions of genes. Genomic variations may contribute to variation of sesame agronomic traits such as flowering time, plant height, and oil content. The identified genomic variations were successfully used in the QTL mapping and the black pigment synthesis gene, PPO, was found to be the candidate gene of sesame seed coat color. The comprehensively compared genomes of sesame landrace and modern variety produced massive useful genomic information, constituting a powerful tool to support genetic research, and molecular breeding of sesame.

分类号:

  • 相关文献

[1]Genetic analysis and molecular characterization of Chinese sesame (Sesamum indicum L.) cultivars using Insertion-Deletion (InDel) and Simple Sequence Repeat (SSR) markers. Wu, Kun,Yang, Minmin,Liu, Hongyan,Mei, Ju,Zhao, Yingzhong,Tao, Ye. 2014

[2]Development of novel InDel markers and genetic diversity in Chenopodium quinoa through whole-genome re-sequencing. Zhang, Tifu,Lv, Yuanda,Zhou, Ling,Lu, Haiyan,Liang, Shuaiqiang,Bao, Huabin,Zhao, Han,Gu, Minfeng,Liu, Yuhe. 2017

[3]Genome re-sequencing of two accessions and fine mapping the locus of lobed leaflet margins in mungbean. Jiao, Keyuan,Guo, Wuxiu,Jiao, Keyuan,Li, Xin,Yuan, Xingxing,Yuan, Xingxing,Cui, Xiaoyan,Chen, Xin.

[4]Genetic Diversity Revealed by Single Nucleotide Polymorphism Markers in a Worldwide Germplasm Collection of Durum Wheat. Sun, Daokun,Chen, Liang,Peng, Junhua,Ren, Jing,You, Frank M.,Wang, Jirui,Luo, Ming-Cheng,You, Frank M.,Peng, Yunliang,Nevo, Eviatar,Sun, Dongfa,Peng, Junhua. 2013

[5]Genome and Molecular Characterization of a CSFV Strain Isolated from a CSF Outbreak in South China. Shen, Hai-Yan,Wang, Jia-Ying,Dong, Xiao-Ying,Zhao, Ming-Qiu,Kang, Yanmei,Li, Yin-Guang,Pei, Jing-Jing,Liao, Ming,Ju, Chun-Mei,Yi, Lin,Hu, Yongming,Chen, Jin-Ding,Shen, Hai-Yan. 2013

[6]Complete Genome Sequence of Aeromonas veronii Strain B565. Liu, Yuchun,Zhang, Yuting,Zhou, Zhigang,Li, Yanxia,Zhou, Zhemin,Huang, Huoqing,Ren, Yan,Li, Guannan,Wang, Lei,Zhou, Zhemin,Ren, Yan,Wang, Lei,Ren, Yan,Wang, Lei.

[7]Complete genome comparison of duck hepatitis virus type 1 parental and attenuated strains. Wang, Yong,Li, Chuanfeng,Chen, Zongyan,Li, Gang,Wang, Yong,Xu, Binrui,Li, Gang.

[8]Genomic variation of the rice Rim2/Hipa superfamily and dendrogram and fingerprinting analysis of rice germplasm based on Rim2/Hipa paralog display. Tian, PF,Wang, JJ,Wu, G,Li, Q,Lu, BR,He, ZH. 2006

[9]Improved Detection and Characterization of Copy Number Variations Among Diverse Pig Breeds by Array CGH. Wang, Jiying,Jiang, Jicai,Wang, Haifei,Kang, Huimin,Zhang, Qin,Liu, Jian-Feng,Wang, Jiying. 2015

[10]High Variation in Single Nucleotide Polymorphisms (SNPs) and Insertions/Deletions (Indels) in the Highly Invasive Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) Middle East-Asia Minor 1 (MEAM1). Sun, H. B.,Wan, F. H.,Guo, J. Y.,Zhang, G. F.,Wan, F. H.,Guo, J. Y.. 2013

[11]Analysis of genetic differentiation and genomic variation to reveal potential regions of importance during maize improvement. Wu, Xun,Li, Yongxiang,Li, Xin,Li, Chunhui,Shi, Yunsu,Song, Yanchun,Li, Yu,Wang, Tianyu,Wu, Xun,Zheng, Zuping. 2015

[12]Rapid diversification of five Oryza AA genomes associated with rice adaptation. Zhang, Qun-Jie,Zhu, Ting,Xia, En-Hua,Shi, Chao,Liu, Yun-Long,Zhang, Yun,Liu, Yuan,Jiang, Wen-Kai,Zhao, You-Jie,Mao, Shu-Yan,Zhang, Li-Ping,Huang, Hui,Jiao, Jun-Ying,Xu, Ping-Zhen,Yao, Qiu-Yang,Yang, Li-Li,Gao, Ju,Gao, Li-Zhi,Zhang, Qun-Jie,Zhu, Ting,Xia, En-Hua,Shi, Chao,Liu, Yuan,Yao, Qiu-Yang,Zeng, Fan-Chun,Gao, Ju,Tao, Da-Yun,Wang, Yue-Ju,Bennetzen, Jeffrey L..

[13]Association Mapping Reveals Genetic Loci Associated with Important Agronomic Traits in Lentinula edodes, Shiitake Mushroom. Li, Chuang,Gong, Wenbing,Zhang, Lin,Bian, Yinbing,Xiao, Yang,Gong, Wenbing,Yang, Zhiquan,Nong, Wenyan,Kwan, Hoi-Shan,Cheung, Man-Kit. 2017

[14]Development of a large number of SSR and InDel markers and construction of a high-density genetic map based on a RIL population of pepper (Capsicum annuum L.). Zhang, Xiao-fen,Wang, Qian,Zhang, Xiao-fen,Sun, Hong-he,Xu, Yong,Chen, Bin,Yu, Shuan-cang,Geng, San-sheng.

[15]Development of InDel markers for the restorer gene and Rf1 assessment of their utility for marker-assisted selection in cotton. Jianyong Wu,Xing, Chaozhu,Meng Zhang,Xuexian Zhang,Liping Guo,Tingxiang Qi,Hailin Wang,Huini Tang,Jinfa Zhang,Chaozhu Xing.

[16]Development of 1047 insertion-deletion markers for rice genetic studies and breeding. Zeng, Y. X.,Wen, Z. H.,Ma, L. Y.,Ji, Z. J.,Li, X. M.,Yang, C. D.. 2013

[17]Exploiting Illumina sequencing for the development of InDel markers in watermelon (Citrullus lanatus). Liu, G.,Xu, J. H.,Zhang, M.,Li, P. F.,Yao, X. F.,Hou, Q.,Zhu, L. L.,Ren, R. S.,Yang, X. P..

[18]Disruption of the sheep BMPR-IB gene by CRISPR/Cas9 in in vitro-produced embryos. Zhang, Xuemei,Li, Wenrong,Liu, Mingjun,Zhang, Xuemei,Li, Wenrong,Wu, Yangsheng,Peng, Xinrong,Lou, Bian,Wang, Liqin,Liu, Mingjun,Zhang, Xuemei,Li, Wenrong,Wu, Yangsheng,Peng, Xinrong,Lou, Bian,Wang, Liqin,Liu, Mingjun.

[19]Assessment of Genetic Diversity of Chinese Sand Pear Landraces (Pyrus pyrifolia Nakai) Using Simple Sequence Repeat Markers. Huang, Hongwen,Jiang, Zhengwang,Tang, Feiyan,Hu, Hongju,Chen, Qiliang. 2009

[20]Genetic contribution of Chinese landraces to the development of sorghum hybrids. Li, Y,Li, CZ. 1998

作者其他论文 更多>>

微信小程序