Quantitative trait locus analysis for ear height in maize based on a recombinant inbred line population

文献类型: 外文期刊

第一作者: Zhang, H. M.

作者: Zhang, H. M.;Wu, X. P.;Liu, X. H.;Sun, Y.;Li, Z. Q.;Zhang, H. M.;Wu, X. P.;Sun, Y.;Li, Z. Q.

作者机构:

关键词: Maize (Zea mays L.);Ear height;Quantitative trait locus;Recombinant inbred line

期刊名称:GENETICS AND MOLECULAR RESEARCH ( 影响因子:0.764; 五年影响因子:0.912 )

ISSN: 1676-5680

年卷期: 2014 年 13 卷 1 期

页码:

收录情况: SCI

摘要: Maize (Zea mays L.) is among the crops with the greatest worldwide economic importance. Ear height is a very important trait that is considered necessary in maize and is related to morphology, lodging, and yield. To realize its genetic basis, an F-9 recombinant inbred line population and a genetic map consisting of 101 simple sequence repeat markers were used to detect the quantitative trait locus (QTL) for ear height, and the result showed that one QTL on chromosome 1 was identified with a mapping interval of 5 cM to its linked marker Umc1358. The QTL from elite inbred line Mo17 could explain 9.55% of the phenotypic variance, and because of the additive effect, it could result in an ear height increase of 4.86 cm. This result was beneficial for understanding the genetic basis of ear height in maize.

分类号:

  • 相关文献

[1]Genetic analysis of maize kernel thickness by quantitative trait locus identification. Wen, G. Q.,Liu, X. H.,Liao, C. M.. 2015

[2]QTL mapping for ear length and ear diameter under different nitrogen regimes in maize. Zhang, Hongmei,Li, Runzhi,Zheng, Zuping,Li, Zhong,He, Chuan,Liu, Daihui,Luo, Yangchun,Zhang, Guoqin,Liu, Xiaohong,Tan, Zhenbo,Zhang, Hongmei. 2010

[3]Stability of QTL Across Environments and QTL-by-Environment Interactions for Plant and Ear Height in Maize. Zhang Yan,Li Yong-xiang,Wang Yang,Liu Zhi-zhai,Peng Bo,Tan Wei-wei,Wang Di,Shi Yun-su,Song Yan-chun,Wang Tian-yu,Li Yu,Liu Cheng,Sun Bao-cheng,Liu Zhi-zhai. 2010

[4]Identification of QTLs for plant height, ear height and grain yield in maize (Zea mays L.) in response to nitrogen and phosphorus supply. Cai, Hongguang,Chu, Qun,Gu, Riliang,Yuan, Lixing,Liu, Jianchao,Chen, Fanjun,Mi, Guohua,Zhang, Fusuo,Cai, Hongguang,Zhang, Xiuzhi.

[5]Validating a segment on the short arm of chromosome 6 responsible for genetic variation in the hull silicon content and yield traits of rice. Dai, Wei-Min,Zhang, Ke-Qin,Wu, Ji-Rong,Wang, Lei,Duan, Bin-Wu,Zheng, Kang-Le,Zhuang, Jie-Yun,Dai, Wei-Min,Cai, Run,Dai, Wei-Min. 2008

[6]High-Density SNP Map Construction and QTL Identification for the Apetalous Character in Brassica napus L.. Wang, Xiaodong,Yu, Kunjiang,Li, Hongge,Peng, Qi,Chen, Feng,Zhang, Wei,Chen, Song,Hu, Maolong,Zhang, Jiefu,Wang, Xiaodong,Zhang, Jiefu,Chen, Feng. 2015

[7]Mapping of Quantitative Trait Loci for Contents of Macro- and Microelements in Milled Rice (Oryza sativa L.). Yu, Yong-Hong,Shao, Ya-Fang,Liu, Jie,Fan, Ye-Yang,Sun, Cheng-Xiao,Cao, Zhao-Yun,Zhuang, Jie-Yun.

[8]Identification and characterization of quantitative trait loci for grain yield and its components under different nitrogen fertilization levels in rice (Oryza sativa L.). Tong, Han-hua,Xing, Yong-zhong,Luo, Li-jun,Tong, Han-hua,Chen, Liang,Li, Wei-ping,Mei, Han-wei,Yu, Xing-qiao,Xu, Xiao-yan,Luo, Li-jun,Tong, Han-hua,Zhang, Shan-qing. 2011

[9]Quantitative trait locus analysis for kernel width using maize recombinant inbred lines. Hui, G. Q.,Yang, H. P.,Luo, Q.,Zhang, H. M.,Wen, G. Q.,Liu, X. H.,Song, H. X.,Wen, L.,Sun, Y.,Zhang, H. M.. 2015

[10]Changes in Plant-to-Plant Variability among Maize Individuals and their Relationships with Plant Density and Grain Yield. Sun, Y. L.,Zhang, G. Q.,Li, S. K.,Xie, R. Z.,Wang, K. R.,Hou, P.,Ming, B.,Guo, Y. Q.,Sun, Y. L.,Zhang, G. Q.,Li, S. K.,Li, J.,Zhao, R. L..

[11]Primary analysis of QTG contribution to heterosis in upland cotton. ZHANG XianLiang,LIU Fang,WANG Wei,LI ShaoHui,WANG ChunYing,ZHANG XiangDi,WANG YuHong,WANG KunBo. 2010

[12]Identification of stable quantitative trait loci (QTLs) for fiber quality traits across multiple environments in Gossypium hirsutum recombinant inbred line population. Muhammad Jamshed,Fei Jia,Juwu Gong,;Koffi Kibalou Palanga,Yuzhen Shi,Junwen Li,Haihong Shang,Aiying Liu,Tingting Chen,Zhen Zhang,Juan Cai,Qun Ge,Zhi Liu,Quanwei Lu,Xiaoying Deng,Yunna Tan,Harun or Rashid,Zareen Sarfraz,Murtaza Hassan,Wankui Gong,Youlu Yuan. 2016

[13]Dissection of component QTL expression in yield formation in rice. Guo, LB,Xing, YZ,Mei, HW,Xu, CG,Shi, CH,Wu, P,Luo, LJ. 2005

[14]Effect of high-molecular-weight glutenin allele, Glu-B1d, from synthetic hexaploid wheat on wheat quality parameters and dry, white Chinese noodle-making quality. Chen, Fang,Tang, Yonglu,Yang, Wuyun,Wu, Yuanqi,Li, Chaosu,Li, Jun,Zou, Yuchun,Mares, Daryl. 2010

[15]Effect of Environment and Genetic Recombination on Subspecies and Economic Trait Differentiation in the F-2 and F-3 Generations from indica-japonica Hybridization. Wang He-tong,Jin Feng,Xu Hai,Cheng Ling,Xia Ying-jun,Liu Chun-xiang,Chen Wen-fu,Xu Zheng-jin,Jiang Yi-jun,Lin Qing-shan. 2014

[16]Genotype x environment interactions for chilling tolerance of rice recombinant inbred lines under different low temperature environments. Jiang, Wenzhu,Lee, Joohyun,Chu, Sang-Ho,Ham, Tae-Ho,Woo, Mi-Ok,Cho, Young-Il,Koh, Hee-Jong,Jiang, Wenzhu,Lee, Joohyun,Chu, Sang-Ho,Ham, Tae-Ho,Woo, Mi-Ok,Cho, Young-Il,Koh, Hee-Jong,Chin, Joong-Hyoun,Han, Longzhi,Xuan, Yingshi,Yuan, Donglin,Xu, Furong,Dai, Luyuan,Yea, Jong-Doo.

[17]QTL mapping for developmental behavior of plant height in wheat (Triticum aestivum L.). Wang, Zhenghang,Ren, Qian,Li, Runzhi,Wang, Zhenghang,Wu, Xianshan,Ren, Qian,Chang, Xiaoping,Jing, Ruilian.

[18]Quantitative trait loci analysis of stem strength and related traits in soybean. Chen, Haifeng,Shan, Zhihui,Sha, Aihua,Wu, Baoduo,Yang, Zhonglu,Chen, Shuilian,Zhou, Rong,Zhou, Xinan.

[19]Genetic Analysis and QTL Detection on Fiber Traits Using Two Recombinant Inbred Lines and Their Backcross Populations in Upland Cotton. Lianguang Shang,Yumei Wang,Xiaocui Wang,Fang Liu,Abdugheni Abduweli,Shihu Cai,Yuhua Li,Lingling Ma,Kunbo Wang,Jinping Hua. 2016

[20]Mapping quantitative trait loci for nitrogen uptake and utilization efficiency in rice (Oryza sativa L.) at different nitrogen fertilizer levels. Dai, G. J.,Zhang, M. L.,Jiang, H. B.,Su, Y. A.,He, N.,Ma, Z. B.,Ma, X. Q.,Hou, S. G.,Wang, Y. R.,Cheng, S. H.,Feng, Y.,Shen, X. H.,Hua, Z. T.,Hua, Z. T.. 2015

作者其他论文 更多>>

微信小程序