农科机构知识库联盟

Epigenetic mechanisms of salt tolerance and heterosis in Upland cotton (Gossypium hirsutum L.) revealed by methylation-sensitive amplified polymorphism analysis

文献类型：外文期刊

第一作者： Baohua Wang

作者： Baohua Wang;Mi Zhang;Rong Fu;Xiaowei Qian;Ping Rong;Yan Zhang;Peng Jiang;Junjuan Wang;Xuke Lu;Delong Wang;Wuwei Ye;Xinyu Zhu

作者机构：

关键词： Cotton;Epigenetic mechanism;Salt stress;Heterosis

期刊名称：EUPHYTICA （影响因子：1.895；五年影响因子：2.181 ）

ISSN：

年卷期：

页码：

收录情况： SCI

摘要： In order to explore the molecular mechanism of salt tolerance and heterosis in cotton, a methylation-sensitive amplification polymorphism method based on capillary electrophoresis was used to analyze DNA methylation level in a cotton hybrid CCRI 29 and its two parents. The major results and conclusions are as follows: Firstly, salt tolerance test showed that CCRI 29 had higher salt-tolerance level than its both parents. The global DNA methylation level in CCRI 29 under salt treatment significantly increased, whereas the two parents did not change significantly between salt treatment and control. All kinds of variation of DNA methylation happened in cotton under salt treatment, and hypermethylation happened at a significantly higher rate than that of hypomethylation in CCRI 29 but not in its two parents. The results suggested that the increase of global DNA methylation level in cotton genome and also different methylation types played an important role in tolerance to salt treatment in cotton. Secondly, both and hypermethylation happened to different genes and some ghypomethylationenes maintained the same methylation level after salt stress, which meant that complex gene expression alterations occurred when responding to salt stress in cotton, indicating the complicated characteristics of roles that specific genes played in salt tolerance. Thirdly, although most cytosine methylation sites in hybrid CCRI 29 shared the same status as that of at least one of the parents, the site number of hypomethylation is significantly higher than that of hypermethylation in CCRI 29 compared to parents under both control and salt stress, indicating that demethylation could be the mechanism to explain heterosis in cotton hybrid.

分类号： S3

相关文献

[1]Differential Gene Expression Between Hybrids and Their Parents During the Four Crucial Stages of Cotton Growth and Development. Zhao Yun-lei,Yu Shu-xun,Xing Chao-zhu,Fan Shu-li,Song Mei-zhen,Ye Wu-wei. 2009

[2]Exogenous nitric oxide delays salt-induced leaf senescence in cotton (Gossypium hirsutum L.). Kong, Xiangqiang,Wang, Tao,Li, Weijiang,Tang, Wei,Zhang, Dongmei,Dong, Hezhong,Wang, Tao,Dong, Hezhong.

[3]Study on DNA Cytosine Methylation of Cotton (Gossypium hirsutum L.) Genome and Its Implication for Salt Tolerance. ZHAO Yun-lei,YU Shu-xun,YE Wu-wei,WANG Hong-mei,WANG Jun-juan,FANG Bao-xing. 2010

[4]Analysis of methylation-sensitive amplified polymorphism in different cotton accessions under salt stress based on capillary electrophoresis. Baohua Wang,Rong Fu,Mi Zhang,Zhenqian Ding,Lei Chang,Xinyu Zhu,Yafeng Wang,Baoxiang Fan,Wuwei Ye,Youlu Yuan.

[5]Relative contribution of Na+/K+ homeostasis, photochemical efficiency and antioxidant defense system to differential salt tolerance in cotton (Gossypium hirsutum L.) cultivars. Ning Wang,Wenqing Qiao,Huang, Qun,Yan, Gentu,Xiaohong Liu,Jianbin Shi,Qinghua Xu,Hong Zhou,Gentu Yan,Qun Huang. 2017

[6]Soaking in H2O2 regulates ABA biosynthesis and GA catabolism in germinating cotton seeds under salt stress. Kong, Xiangqiang,Luo, Zhen,Zhang, Yanjun,Li, Weijiang,Dong, Hezhong.

[7]Comprehensive analysis of differentially expressed genes and transcriptional regulation induced by salt stress in two contrasting cotton genotypes. Zhen Peng,Shoupu He,Wenfang Gong,Junling Sun,Zhaoe Pan,Feifei Xu,Yanli Lu,Xiongming Du. 2014

[8]Comprehensive Transcriptome Analyses Reveal Differential Gene Expression Profiles of Camellia sinensis Axillary Buds at Para-, Endo-, Ecodormancy, and Bud Flush Stages. Hao, Xinyuan,Yang, Yajun,Yue, Chuan,Wang, Lu,Wang, Xinchao,Hao, Xinyuan,Yang, Yajun,Yue, Chuan,Wang, Lu,Wang, Xinchao,Horvath, David P.. 2017

[9]Improvement of combining ability for restorer lines with the identified SSR markers in hybrid rice breeding. Liu, XC,Chen, SG,Chen, JS,Ishiki, KS,Wang, WX,Yu, LQ.

[10]Changes of antioxidative enzymes and cell membrane osmosis in tomato colonized by arbuscular mycorrhizae under NaCl stress. ZhongQun, He,ChaoXing, He,ZhiBin, Zhang,ZhiRong, Zou,HuaiSong, Wang.

[11]Histological and Ultrastructural Observation Reveals Significant Cellular Differences between Agrobacterium Transformed Embryogenic and Non-embryogenic Calli of Cotton. Shang, Hai-Hong,Liu, Chuan-Liang,Zhang, Chao-Jun,Li, Feng-Lian,Hong, Wei-Dong,Li, Fu-Guang.

[12]Heterosis in yield, endotoxin expression and some physiological parameters in Bt transgenic cotton. Dong, H. Z.,Li, W. J.,Tang, W.,Li, Z. H.,Zhang, D. M.. 2007

[13]Relationship Between Gene Differential Expression of Leaves in Full Opening Flower Stages of Hybrids & Their Parents and Heterosis in Pest-resistant Cotton. XING Chao-Zhu,ZHAO Yun-Lei,YU Shu-Xun,ZHANG Xian-Long,GUO Li-Ping,WANG Hai-Lin. 2006

[14]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

[15]Comparisons of Photosynthetic Characteristics in Relation to Lint Yield Among F-1 Hybrids, Their F-2 Descendants and Parental Lines of Cotton. Feng Guo-yi,Gan Xiu-xia,Yao Yan-di,Luo Hong-hai,Zhang Ya-li,Zhang Wang-feng,Feng Guo-yi. 2014

[16]Dissection of heterosis for yield and related traits using populations derived from introgression lines in rice. Xiang, Chao,Zhang, Hongjun,Wei, Shaobo,Fu, Binying,Gao, Yongming,Wang, Hui,Xia, Jiafa,Li, Zefu,Ye, Guoyou. 2016

[17]Proteomic analysis of heterosis in the leaves of sorghum-sudangrass hybrids. Han, Pingan,Lu, Xiaoping,Dong, Jing,Xue, Chunlei,Mi, Fugui,Li, Jianke,Han, Bin,Zhang, Xiaoyu. 2016

[18]Breaking wheat yield barriers requires integrated efforts in developing countries. Rauf, Saeed,Khalil, Farghama,Zaharieva, Maria,Warburton, Marilyn L.,Zhang Ping-zhi,Al-Sadi, Abdullah M.,Kozak, Marcin,Tariq, Sultan A.. 2015

[19]Heterosis and combining ability for plant height and its components in hybrid wheat with Triticum timopheevi cytoplasm. Peng, JH,Liu, ZQ. 1997

[20]Genetic analysis of plant height and its components in diallel crosses of bread wheat (Triticum aestivum L.). Yao, J. B.,Ma, H. X.,Ren, L. J.,Zhang, P. P.,Yang, X. M.,Yao, G. C.,Zhang, P.,Zhou, M. P.. 2011

作者其他论文更多>>

Resequencing of cv CRI-12 family reveals haplotype block inheritance and recombination of agronomically important genes in artificial selection

作者：Xuke Lu;Xiaoqiong Fu;Delong Wang;Junyi Wang;Xiugui Chen;Meirong Hao;Junjuan Wang;Kyle A. Gervers;Lixue Guo;Shuai Wang;Zujun Yin;Weili Fan;Chunwei Shi;Xiaoge Wang;Jun Peng;Chao Chen;Ruifeng Cui;Na Shu;Binglei Zhang;Mingge Han;Xiaojie Zhao;Min Mu;John Z. Yu;Wuwei Ye

关键词：CRI-12 family; SNPs; haplotype block; inheritance and recombination; artificial selection
Transcriptome Analysis Reveals Cotton (Gossypium hirsutum) Genes That Are Differentially Expressed in Cadmium Stress Tolerance

作者：Mingge Han;Xuke Lu;John Yu;Xiugui Chen;Xiaoge Wang;Waqar Afzal Malik;Junjuan Wang;Delong Wang;Shuai Wang;Lixue Guo;Chao Chen;Ruifeng Cui;Xiaoming Yang;Wuwei Ye

关键词：cotton (Gossypium hirsutum L.); transcriptome; Cd stress; GhHMAD5; overexpression; VIGS (virus induced gene silence)
Identification and function analysis of drought-specific small RNAs in Gossypium hirsutum L.

作者：Xuke Lu;Zujun Yin;Junjuan Wang;Xiugui Chen;Delong Wang;Shuai Wang;Lixue Guo;Weili Fan;Chao Chen;Xiaoge Wang;Ruifeng Cui;Binglei Zhang;Mingge Han;Xiaomin Yang;Wuwei Ye

关键词：miRNAs; Drought; Gossypium hirsutum L.; miRNA-targets; Methylation
Identification, Characterization, and Expression Patterns of TCP Genes and microRNA319 in Cotton

作者：Zujun Yin;Yan Li;Weidong Zhu;Xiaoqiong Fu;Xiulan Han;Junjuan Wang;Huan Lin;Wuwei Ye

关键词：upland cotton; TCP genes; abiotic stress; miR319; target genes
Transcriptome Analysis of Gossypium hirsutum L. Reveals Different Mechanisms among NaCl, NaOH and Na2CO3 Stress Tolerance

作者：Binglei Zhang;Xiugui Chen;Xuke Lu;Na Shu;Xiaoge Wang;Xiaomin Yang;Shuai Wang;Junjuan Wang;Lixue Guo;Delong Wang;Wuwei Ye

关键词：
Resequencing a core collection of upland cotton identifies genomic variation and loci influencing fiber quality and yield

作者：Ma, Zhiying;Shoupu He;Xingfen Wang;Junling Sun;Yan Zhang;Guiyin Zhang;Liqiang Wu;Zhikun Li;Zhihao Liu;Gaofei Sun;Yuanyuan Yan;Yinhua Jia;Jun Yang;Zhaoe Pan;Qishen Gu;Xueyuan Li;Zhengwen Sun;Panhong Dai;Zhengwen Liu;Wenfang Gong;Jinhua Wu;Mi Wang;Hengwei Liu;Keyun Feng;Huifeng Ke;Junduo Wang;Hongyu Lan;Guoning Wang;Jun Peng;Nan Wang;Liru Wang;Baoyin Pang;Zhen Peng;Ruiqiang Li;Shilin Tian;Xiongming Du

关键词：
GrTEdb: the first web-based database of transposable elements in cotton (Gossypium raimondii)

作者：Zhenzhen Xu;Jing Liu;Du, Jianchang;Shen, Xinlian;Wanchao Ni;Zhen Peng;Yue Guo;Wuwei Ye;Fang Huang;Xianggui Zhang;Peng Xu;Qi Guo;Xinlian Shen;Jianchang Du

关键词：

Epigenetic mechanisms of salt tolerance and heterosis in Upland cotton (Gossypium hirsutum L.) revealed by methylation-sensitive amplified polymorphism analysis

作者其他论文 更多>>

Resequencing of cv CRI-12 family reveals haplotype block inheritance and recombination of agronomically important genes in artificial selection

Transcriptome Analysis Reveals Cotton (Gossypium hirsutum) Genes That Are Differentially Expressed in Cadmium Stress Tolerance

Identification and function analysis of drought-specific small RNAs in Gossypium hirsutum L.

Identification, Characterization, and Expression Patterns of TCP Genes and microRNA319 in Cotton

Transcriptome Analysis of Gossypium hirsutum L. Reveals Different Mechanisms among NaCl, NaOH and Na2CO3 Stress Tolerance

Resequencing a core collection of upland cotton identifies genomic variation and loci influencing fiber quality and yield

GrTEdb: the first web-based database of transposable elements in cotton (Gossypium raimondii)

作者其他论文更多>>