山西省农业科学院机构知识库

Genetic basis of traits related to stomatal conductance in wheat cultivars in response to drought stress

文献类型：外文期刊

作者： Wang, S. G. ¹ ; Jia, S. S. ¹ ; Sun, D. Z. ¹ ; Wang, H. Y. ¹ ; Dong, F. F. ¹ ; Ma, H. X. ¹ ; Jing, R. L. ² ; Ma, G. ³ ;

作者机构： 1.Shanxi Agr Univ, Coll Agron, Taigu 030801, Shanxi, Peoples R China

2.Chinese Acad Agr Sci, Inst Crop Sci, Beijing 100081, Peoples R China

3.Shanxi Acad Agr Sci, Wheat Res Inst, Linfen 041000, Shanxi, Peoples R China

关键词： drought stress;photosynthetic rate;quantitative trait loci;stomatal conductance;transpiration rate;wheat

期刊名称：PHOTOSYNTHETICA （影响因子：3.189；五年影响因子：3.38 ）

ISSN：

年卷期：

页码：

收录情况： SCI

摘要： The genetic basis of stomatal conductance (g (s)), net photosynthetic rate (P (N)), and transpiration rate (E) was explored by using a wheat doubled haploid population from a cross of Hanxuan10 and Lumai 14. The above three traits were evaluated in wheat flag leaves at 10, 20, 30 days after anthesis under drought stress (DS) and well-watered (WW), and quantitative trait loci (QTL) were analyzed. Expression of the traits during the grain filling stage showed downward trends under both conditions, but expression of three phenotypes were stronger under WW than those under DS. Extremely significant positive correlations were established among the traits at all growth stages under both conditions. A total of 18 additive QTLs for those traits were identified on 10 chromosomes. Among them, two batches of nine additive QTLs were associated with the target traits under DS and WW, respectively. Two additive QTLs for g (s) and E, two for g (s) and P (N), six for g (s), P (N), and E clustered at the same or near the region (colocation) of chromosomes 4A, 2B, and 7B, respectively. This provided genetic basis for close phenotype correlations among g (s), P (N), and E. Furthermore, QTLs for g (s), P (N), and E near Xgwm577 and Xgwm611 located on 7B chromosome were linked to previously reported QTLs regulating a SPAD value and the chlorophyll a/b ratio under dark-induced condition. This finding indicated that these QTLs on 7B chromosome might be involved in the process of wheat leaf senescence.

相关文献

[1]DYNAMIC QTL ANALYSIS OF CHLOROPHYLL CONTENT DURING GRAIN FILLING STAGE IN WINTER WHEAT (TRITICUM AESTIVUM L.). Yang, Bin,Yan, Xue,Wang, Huiyan,Li, Xiaoyu,Ma, Haoxiang,Wang, Shuguang,Sun, Daizhen,Yang, Bin,Jing, Ruilian. 2016

[2]Gene Expression Profiles of Response to Water Stress at the Jointing Stage in Wheat. Shi Jun-feng,Mao Xin-guo,Jing Rui-lian,Pang Xiao-bin,Chang Xiao-ping,Shi Jun-feng,Shi Jun-feng,Wang Yu-guo. 2010

[3]Dead mycelium of Penicillium chrysogenum protects transplanted cotton plants agains fungal wilts in a saline field. Zhang, H. J.,Dong, H. Z.,Li, W. J.,Zhang, H. J.,Dong, H. Z.,Li, W. J..

[4]Molecular Mapping of the Major Resistance Quantitative Trait Locus qHS2.09 with Simple Sequence Repeat and Single Nucleotide Polymorphism Markers in Maize. Weng, Jianfeng,Hao, Zhuanfang,Xie, Chuanxiao,Li, Mingshun,Zhang, Degui,Bai, Li,Liu, Changlin,Zhang, Shihuang,Li, Xinhai,Liu, Xianjun,Wang, Zhenhua,Zhang, Lin,Wang, Jianjun.

[5]Soil water repellency of the artificial soil and natural soil in rocky slopes as affected by the drought stress and polyacrylamide. Chen, Zhang,Wang, Ruixin,Han, Pengyuan,Sun, Hailong,Sun, Haifeng,Li, Chengjun,Yang, Lixia. 2018

[6]Arabidopsis EDT1/HDG11 improves drought and salt tolerance in cotton and poplar and increases cotton yield in the field. Yu, Lin-Hui,Chen, Xi,Zhao, Ping,Xu, Ping,Xiang, Cheng-Bin,Wu, Shen-Jie,Jiao, Gai-Li,Peng, Yi-Shu,Pei, Yan,Liu, Rui-Na,Zhu, Jian-Bo.

[7]An analysis of homoeologous microsatellites from Triticum urartu and Triticum monococcum. Bai, JR,Liu, KF,Jia, X,Wang, DW.

[8]Damage repair effect of He-Ne laser on wheat exposed to enhanced ultraviolet-B radiation. Sun, Yi,Yang, Liyan,Han, Rong,Sun, Yi.

[9]TEF-7A, a transcript elongation factor gene, influences yield-related traits in bread wheat (Triticum aestivum L.). Zheng, Jun,Liu, Hong,Wang, Yuquan,Zhang, Xueyong,Zheng, Jun,Liu, Hong,Wang, Yuquan,Zhang, Xueyong,Zheng, Jun,Liu, Hong,Wang, Yuquan,Wang, Lanfen,Chang, Xiaoping,Jing, Ruilian,Hao, Chenyang,Zhang, Xueyong,Zheng, Jun.

[10]Introduction of multi-alien chromatins carrying different powdery mildew-resistant genes from rye and Haynaldia villosa into wheat genome. Yuan, WY,Tomita, M,Sun, SC,Yasumuro, Y.

[11]Molecular Characterization, Gene Evolution, and Expression Analysis of the Fructose-1, 6-bisphosphate Aldolase (FBA) Gene Family in Wheat (Triticum aestivum L.). Lv, Geng-Yin,Guo, Xiao-Guang,Xie, Li-Ping,Xie, Chang-Gen,Zhang, Xiao-Hong,Yang, Yuan,Xiao, Lei,Tang, Yu-Ying,Guo, Ai-Guang,Xu, Hong,Xie, Chang-Gen,Guo, Ai-Guang,Xu, Hong,Pan, Xing-Lai. 2017

[12]A new stripe rust resistance gene transferred from Thinopyrum intermedium to hexaploid wheat (Triticum aestivum). Luo, Pei-Gao,Hu, Xue-Yun,Zhang, Min,Zhang, Huai-Qiong,Ren, Zheng-Long,Chang, Zhi-Jian. 2009

[13]Molecular Characterization of a New Wheat-Thinopyrum intermedium Translocation Line with Resistance to Powdery Mildew and Stripe Rust. Zhan, Haixian,Li, Guangrong,Pan, Zhihui,Yang, Zujun,Zhan, Haixian,Zhang, Xiaojun,Hu, Jin,Li, Xin,Qiao, Linyi,Guo, Huijuan,Chang, Zhijian,Jia, Juqing,Chang, Zhijian. 2015

[14]Protein characteristics of Chinese black-grained wheat. Li, WD,Beta, T,Sun, SC,Corke, H. 2006

[15]Characterization of a partial amphiploid between Triticum aestivum cv. Chinese Spring and Thinopyrum intermedium ssp trichophorum. Yang, ZJ,Li, GR,Chang, ZJ,Zhou, JP,Ren, ZL. 2006

[16]Effects of phenanthrene on seed germination and some physiological activities of wheat seedling. Wei, Haiying,Song, Shanjuan,Liu, Ting,Tian, Hongling. 2014

[17]TaWRKY71, a WRKY Transcription Factor from Wheat, Enhances Tolerance to Abiotic Stress in Transgenic Arabidopsis thaliana. Xu, Q.,Feng, W. J.,Peng, H. R.,Ni, Z. F.,Sun, Q. X.,Xu, Q.. 2014

[18]Comparative Proteomic Analysis of Wheat (Triticum aestivum L.) Hybrid Necrosis. Jiang Qi-yan,Hu Zheng,Zhang Hui,Pan Xing-lai. 2013

[19]Effects of variety, year of cultivation and sulphur supply on the accumulation of free asparagine in the grain of commercial wheat varieties. Curtis, Tanya Y.,Wang, Ruiyun,Halford, Nigel G.,Powers, Stephen J.,Wang, Ruiyun,Wang, Ruiyun. 2018

[20]Study on the interaction between 3 flavonoid compounds and alpha-amylase by fluorescence spectroscopy and enzymatic kinetics. Li, Y.,Gao, F.,Gao, F.,Zhao, C.,Shan, F.,Bian, J..

Genetic basis of traits related to stomatal conductance in wheat cultivars in response to drought stress

作者其他论文更多>>

意见箱

Genetic basis of traits related to stomatal conductance in wheat cultivars in response to drought stress

作者其他论文 更多>>

意 见 箱

作者其他论文更多>>

意见箱