HapIII of TaSAP1-A1, a Positively Selected Haplotype in Wheat Breeding

文献类型: 外文期刊

第一作者: Chang Jian-zhong

作者: Chang Jian-zhong;Hao Chen-yang;Chang Xiao-ping;Zhang Xue-yong;Jing Rui-lian

作者机构:

关键词: wheat (Triticum aestivum L.);TaSAP1-A1 HapIII;frequency distribution;thousand-grain weight;grain yield improvement

期刊名称:JOURNAL OF INTEGRATIVE AGRICULTURE ( 影响因子:2.848; 五年影响因子:2.979 )

ISSN: 2095-3119

年卷期: 2014 年 13 卷 7 期

页码:

收录情况: SCI

摘要: Stress-associated protein (SAP) has functions in maintaining plant cell elongation, embryo development and response to abiotic stresses. TaSAP1-A1, one of the Triticum aestivum SAP1 (TaSAP1) members located on wheat chromosome 7A was isolated for polymorphism analysis. HapIII of TaSAP1-A1 was found significantly associated with thousand-grain weight (TGW) in multiple environments. In this study, HapIII also made a positive contribution to TGW in Population 2. The distribution of TaSAP1-A1 HapIII was tracked among varieties released in different years and geographical environments of China. The frequency of HapIII showed an increasing trend during the breeding process in two different populations. The HapIII was gradually selected and applied from 6.36% in landraces to 13.50% in modern varieties. These results exhibited that TaSAP1-A1 HaplIl was positively selected during wheat breeding, which is beneficial for grain-yield improvement. The preferred HapIII was initially selected and applied in the higher latitude areas of China in accord with the long day season and longer grain filling stage in these areas. Moreover, the frequency of HapIII in recent modern varieties was still quite low (19.29-26.67%). It indicated a high application potential of TaSAP1-A1 HapIII for improving grain yield in wheat breeding.

分类号:

  • 相关文献

[1]Identification and development of a functional marker from 6-SFT-A2 associated with grain weight in wheat. Yue, Aiqin,Li, Ang,Mao, Xinguo,Chang, Xiaoping,Jing, Ruilian,Yue, Aiqin,Li, Runzhi.

[2]Genetic dissection of a thousand-grain weight quantitative trait locus on rice chromosome 1. Yu ShouWu,Yang ChangDeng,Fan YeYang,Zhuang JieYun,Li XiMing.

[3]Length of internode and spike: how do they contribute to plant height of wheat at an individual QTL level?. Wang, L.,Cui, F.,Ding, A. M.,Li, J.,Zhao, C. H.,Li, X. F.,Feng, D. S.,Wang, H. G.,Wang, L.,Wang, J. P.,Cui, F.,Ding, A. M.,Li, J..

[4]Development of near-infrared reflectance spectroscopy models for quantitative determination of water-soluble carbohydrate content in wheat stem and glume. Wang, Zhenghang,Liu, Xiulin,Chang, Xiaoping,Jing, Ruilian,Wang, Zhenghang,Liu, Xiulin,Li, Runzhi.

[5]Effects of exogenous glucose on seed germination and antioxidant capacity in wheat seedlings under salt stress. Hu, Mengyun,Zhang, Yingjun,Li, Hui,Shi, Zhigang,Zhang, Zhengbin.

[6]Transgene inheritance and quality improvement by expressing novel HMW glutenin subunit (HMW-GS) genes in winter wheat. Zhang, XD,Liang, RQ,Chen, XQ,Yang, FP,Zhang, LQ.

[7]Changes of transcriptome and proteome are associated with the enhanced post-anthesis high temperature tolerance induced by pre-anthesis heat priming in wheat. Xin, Caiyun,Wang, Xiao,Cai, Jian,Zhou, Qin,Dai, Tingbo,Cao, Weixing,Jiang, Dong,Liu, Fulai,Xin, Caiyun.

[8]Variation in Cadmium Tolerance and Accumulation and Their Relationship in Wheat Recombinant Inbred Lines at Seedling Stage. Jiang, Dong,Ci, Dunwei,Jiang, Dong,Dai, Tingbo,Jing, Qi,Cao, Weixing,Ci, Dunwei. 2011

[9]Maize residues, soil quality, and wheat growth in China. A review. Kong, Lingan. 2014

[10]Relationship between yield, carbon isotope discrimination and stem carbohydrate concentration in spring wheat grown in Ningxia Irrigation Region (North-west China). Zhu, Lin,Xu, Xing,Zhu, Lin,Liang, Zong Suo,Zhu, Lin,Li, Shu Hua,Xu, Xing,Zhang, Zhan Feng. 2010

[11]Effects of high NH4+ on K+ uptake, culm mechanical strength and grain filling in wheat. Kong, Lingan,Sun, Mingze,Wang, Fahong,Liu, Jia,Feng, Bo,Si, Jisheng,Zhang, Bin,Li, Shengdong,Li, Huawei. 2014

[12]Mapping QTLs for stomatal density and size under drought stress in wheat (Triticum aestivum L.). Wang Shu-guang,Jia Shou-shan,Sun Dai-zhen,Fan Hua,Chang Xiao-ping,Jing Rui-lian. 2016

[13]Factorial cross analysis of pre-harvest sprouting resistance in white wheat. Jiang, GL,Xiao, SH. 2005

[14]Allelic Variation in Loci for Adaptive Response and Its Effect on Agronomical Traits in Chinese Wheat (Triticum aestivum L.). Gao Li-feng,Liu Pan,Gu Yan-chun,Jia Ji-zeng. 2014

[15]Evidences for the association between carbon isotope discrimination and grain yield-Ash content and stem carbohydrate in spring wheat grown in Ningxia (Northwest China). Zhu, Lin,Liang, Zong Suo,Xu, Xing,Zhu, Lin,Xu, Xing,Zhu, Lin,Li, Shu Hua,Monneveux, P.. 2009

[16]Effects of different Rht-B1b, Rht-D1b and Rht-B1c dwarfing genes on agronomic characteristics in wheat. Li, Xing-Pu,Lan, Su-Que,Liu, Yu-Ping,Gale, M. D.,Worland, T. J.. 2006

[17]Double-stranded RNA in the biological control of grain aphid (Sitobion avenae F.). Wang, Dahai,Sun, Yongwei,Wang, Hui,Xia, Lanqin,Wang, Dahai,Liu, Qi,Li, Xia.

[18]Inheritance of stem strength and its correlations with culm morphological traits in wheat (Triticum aestivum L.). Yao, Jinbao,Ma, Hongxiang,Zhang, Pingping,Ren, Lijuan,Yang, Xueming,Yao, Guocai,Zhang, Peng,Zhou, Miaoping. 2011

作者其他论文 更多>>

微信小程序