农科机构知识库联盟

Analysis of high-molecular-weight glutenin subunits in five amphidiploids and their parental diploid species Aegilops umbellulata and Aegilops uniaristata

文献类型：外文期刊

第一作者： Zhao, Li

作者： Zhao, Li;Xue, Xiaofei;Jia, Yanni;Liu, Dengcai;Zheng, Youliang;Yan, Zehong;Pu, Zongjun;Liu, Dengcai

作者机构：

关键词： Aegilops umbellulata;Aegilops uniaristata;amphidiploids;HMW-GS;synthetic hexaploid species;Triticum turgidum

期刊名称：PLANT GENETIC RESOURCES-CHARACTERIZATION AND UTILIZATION （影响因子：1.08；五年影响因子：1.243 ）

ISSN：

年卷期：

页码：

收录情况： SCI

摘要： Amphidiploids serve as a bridge for transferring genes from wild species into wheat. In this study, five amphidiploids with AABBUU and AABBNN genomes were produced by spontaneous chromosome doubling of unreduced triploid F-1 gametes from crosses between diploid Aegilops (A. umbellulata accessions CIae 29 and PI 226500, and A. uniaristata accession PI 554419) and tetraploid Triticum turgidum (ssp. durum cultivar Langdon and ssp. dicoccum accessions PI 94668 and PI 349045) species. The composition of high-molecular-weight glutenin subunits (HMW-GS) in these amphidiploids and in their parental A. umbellulata and A. uniaristata species was analysed. As expected, the amphidiploids from T. turgidum ssp. dicoccum accession PI 944668 or PI 349045 and A. umbellulata accession CIae 29 or PI 226500 and A. uniaristata accession PI 554419 showed the same HMW-GS patterns as those of their Aegilops parents, because HMW-GS genes were all silenced in the T. turgidum ssp. dicoccum parents. The amphidiploids from CIae 29 and Langdon inherited all of the HMW-GS genes from their parents except for the Uy type. Using 10 and 15% sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) and 10% urea/SDS-PAGE, 11 Ux and ten Uy types in 16 combinations were observed in 48 A. umbellulata accessions, and two Nx and two Ny types in two combinations were detected in six A. uniaristata accessions. These novel HMW-GS variants may provide new genetic resources for improving the quality of wheat.

分类号： Q3

相关文献

[1]Cytogenetic and molecular markers for detecting Aegilops uniaristata chromosomes in a wheat background. Gong, Wenping,Li, Guangrong,Zhou, Jianping,Liu, Cheng,Yang, Zujun,Li, Genying,Liu, Cheng,Huang, Chengyan,Zhao, Zhendong.

[2]Microsatellite marker identification of a Triticum aestivum Aegilops umbellulata substitution line with powdery mildew resistance. Zhu, Zhendong,Zhou, Ronghua,Kong, Xiuying,Kong, Xiuying,Dong, Yuchen,Jia, Jizeng. 2006

[3]Analysis of Genetic Diversity in Synthetic Wheat Assemblage (T. turgidumxAegilops tauschii; 2n=6x=42; AABBDD) for Winter Wheat Breeding. Hanif, Uzma,Kazi, Alvina Gul,Afzal, Fakiha,Khalid, Maria,Rasheed, Awais,Munir, Muhammad,Mujeeb-Kazi, Abdul.

[4]Characterization of Synthetic Hexaploids Derived from Same Aegilops tauschii Accessions and Different Durum Cultivars. Gul, Alvina,Afzal, Fakiha,Khalid, Maria,Rasheed, Awais,Napar, Abdul Aziz,Ali, Ahmad,Jamil, Muhammad,Mujeeb-Kazi, Abdul,Bux, Hadi.

[5]INHERITANCE AND CHROMOSOMAL LOCATIONS OF MALE-FERTILITY RESTORING GENE TRANSFERRED FROM AEGILOPS-UMBELLULATA ZHUK TO TRITICUM-AESTIVUM L. MA, ZQ,ZHAO, YH,SORRELLS, ME. 1995

[6]Molecular detection of high- and low-molecular-weight glutenin subunit genes in common wheat cultivars from 20 countries using allele-specific markers. H. Jin,J. Yan,R. J. Peña,X. C. Xia,A. Morgounov,L. M. Han,Y. Zhang,Z. H. He. 2011

[7]A MALDI-TOF based analysis of high molecular weight glutenin subunits for wheat breeding. Liu, Li,Wang, Aili,Ma, Junhong,Lan, Ping,Ma, Wujun,Liu, Li,Xia, Xianchun,He, Zhonghu,Wang, Aili,Yan, Yueming,He, Zhonghu,Bekes, Frank,Appels, Rudi. 2009

[8]Quality of synthetic hexaploid wheat containing null alleles at Glu-A1 and Glu-B1 loci. Dai, Shoufen,Liu, Dengcai,Jiang, Jiaqi,Wei, Yuming,Wu, Bihua,Lan, Xiujin,Zheng, Youliang,Yan, Zehong,Pu, Zhien,Pu, Zongjun. 2013

[9]Generation of transgenic wheat lines with altered expression levels of 1Dx5 high-molecular weight glutenin subunit by RNA interference. Yue, S. J.,Li, Y. W.,Zhu, Y. F.,Chen, Y.,Jia, X.,Li, H.,Yue, S. J.. 2008

[10]Differentiation of the high molecular weight glutenin subunit D-t x2.1 of Aegilops tauschii indicated by partial sequences of its encoding gene and SSR markers. Yang, WY,Lu, BR. 2005

[11]An approach for isolating high-molecular-weight glutenin subunit genes using monoclonal antibodies. Wang, HQ,Zhang, XY. 2006

[12]Quality differences between NILs of wheat variety Long 97-586 possessing HMW-GS 7+8 and 7. Zhang LiLi,Zhang YanBin,Li JiLin,Zhang LiLi,Zhang YanBin,Zhao HaiBin,Song QingJie,Yu HaiYang,Zhang ChunLi,Xin WenLi,Xiao ZhiMin. 2010

[13]QTL mapping for quantities of protein fractions in bread wheat (Triticum aestivum L.). He, Zhonghu,Yan, Jun,Zhang, Yong,Tang, Jianwei,Zhang, Yelun,Yan, Jun,Xiao, Yonggui,Zhang, Yan,Xia, Xianchun,He, Zhonghu.

[14]Development of introgression lines with 18 alleles of glutenin subunits and evaluation of the effects of various alleles on quality related traits in wheat (Triticum aestivum L.). Li, Yulian,Zhou, Ronghua,Jia, Jizeng,Branlard, Gerard,Li, Yulian. 2010

[15]MOLECULAR CHARACTERIZATION AND PHYLOGENETIC ANALYSIS OF UNUSUAL X-TYPE HMW GLUTENIN SUBUNITS FROM 1S(L) GENOME OF Aegilops longissima. Zhu, Gengrui,Wang, Shunli,Zhen, Shoumin,Shen, Xixi,Yan, Yueming,Wang, Shunli,Prodanovic, Slaven,Yan, Yueming. 2015

[16]Development of two multiplex PCR assays targeting improvement of bread-making and noodle qualities in common wheat. Zhang, X. K.,Liu, L.,He, Z. H.,Sun, D. J.,He, X. Y.,Xu, Z. H.,Zhang, P. P.,Chen, F.,Xia, X. C.,Zhang, X. K.,He, Z. H.. 2008

[17]Characterization of HMW glutenin subunits in common wheat and related species by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS). Zhang, Qian,Dong, Yanmin,An, Xueli,Wang, Aili,Zhang, Yanzhen,Li, Xiaohui,Gao, Liyan,Yan, Yueming,Xia, Xianchun,He, Zhonghu,Xia, Xianchun,He, Zhonghu. 2008

[18]Comparative proteome analysis of glutenin synthesis and accumulation in developing grains between superior and poor quality bread wheat cultivars. Ma, Wujun,Liu, Wan,Gao, Xuan,Wang, Ke,Wang, Shunli,Yan, Yueming,Zhang, Yanzhen,Zhang, Yong,He, Zhonghu,Zhang, Yong,He, Zhonghu. 2012

[19]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.

[20]Characterization of a New Wheat-Aegilops biuncialis 1M(b)(1B) Substitution Line with Good Quality-associated HMW Glutenin Subunit. Cheng, Y.,Zang, L. L.,Zheng, X. L.,Deng, K. J.,Zhang, Y.,Yang, E. N.,Liu, C.,Zhu, Y. Q..

作者其他论文更多>>

Pan-genome bridges wheat structural variations with habitat and breeding

作者：Jiao, Chengzhi;Hao, Chenyang;Xie, Yuxin;Zhao, Li;Li, Tian;Fu, Junjie;Hou, Jian;Liu, Hongxia;Liu, Xu;Jia, Jizeng;Mao, Long;Zhang, Xueyong;Jiao, Chengzhi;Wang, Xiue;Xie, Xiaoming;Wang, Zihao;Zhang, Yuqi;Guo, Weilong;Chen, Liyang;Garg, Vanika;Chitikineni, Annapurna;Appels, Rudi;Varshney, Rajeev K.;Dwivedi, Girish;Dwivedi, Girish;Appels, Rudi

关键词：
Fine-mapping and candidate gene identification for QPtn.sau-4B showing potential in increasing productive tiller number and yield in wheat

作者：Liu, Jiajun;Wang, Tongzhu;Lan, Yuxin;Zhang, Zhiyuan;Wu, Lei;Hu, Xinrong;Yin, Li;Liu, Yanlin;Tang, Huaping;Jiang, Qiantao;Xu, Qiang;Chen, Guoyue;Qi, Pengfei;Jiang, Yunfeng;Wei, Yuming;Zheng, Youliang;Ma, Jian;Liu, Jiajun;You, Jianing;Liu, Chunji

关键词：Wheat; Productive tiller number; Grain yield; Candidate genes
New concerns about arsenic contamination in agricultural fields: an in-depth understanding of the occurrence and regulatory strategies for rice straighthead disease

作者：Liu, Qinghui;Cao, Yiran;Li, Dongqin;Shi, Hanzhi;Wu, Zhichao;Li, Furong;Wen, Dian;Wang, Xu;Liu, Qinghui;Cao, Yiran;Li, Dongqin;Shi, Hanzhi;Wu, Zhichao;Li, Furong;Wen, Dian;Wang, Xu;Liu, Qinghui;Cao, Yiran;Li, Dongqin;Shi, Hanzhi;Wu, Zhichao;Li, Furong;Wen, Dian;Wang, Xu;Zhao, Li

关键词：Dimethylarsinic acid; Straighthead disease; Pectin metabolism; Hydrogen peroxide; Mitigation strategies
A modified method for the simultaneous determination of fluindapyr and its metabolites residues in vegetables and fruits by SPE and UHPLC-MS/ MS

作者：Han, Wei;Tang, Hongxia;Li, Yubo;Men, Dianying;Dong, Maofeng;Wang, Weimin;Zhao, Li;Han, Lijun

关键词：Fluindapyr; Metabolites; UHPLC-MS/MS; Method validation; Residues
Multi-omics reveals the mechanism of Sparassis latifolia polysaccharides to relieve cyclophosphamide-induced immune injury in liver of mice

作者：Jin, Wen;Cui, Fangming;Li, Jiaxin;Li, Jiahui;Li, Kexin;Cheng, Yanfen;Cheng, Feier;Cao, Jinling;Zhao, Wenfei;Zhao, Li;Li, Yong;Yang, Yan;Yun, Shaojun;Feng, Cuiping;Yang, Yan

关键词：Sparassis latifolia polysaccharides; Immunosuppression; Liver; Transcriptomics; Metabonomics
Enhancing cellulose and hemicellulose degradation in wheat straw composting by inoculation with Glycomyces: key factors and microbial community dynamics

作者：Zhao, Li;Qian, Lulu;Lin, Jiaying;Song, Wenshuai;Yu, Xiaoyan;Wang, Xiangjing;Xiang, Wensheng;Zhao, Junwei;Guo, Lifeng;Xiang, Wensheng

关键词：Aerobic composting; microbial inoculant; straw waste; lignocellulose; high-throughput sequencing
Targeted Metabolomics Combined with OPLS-DA to Elucidate Phenolic Differences in Eight Cashew Apples

作者：Huang, Haijie;Huang, Weijian;Zhang, Zhongrun;Huang, Haijie;Ma, Huifang;Liu, Yijun;Huang, Haijie;Feng, Xuejie;Hu, Fuchu;Zhao, Ya;Ye, Yingjun;Zhao, Li;Chen, Liming

关键词：cashew apple; LC-MS/MS; phenolics; metabolism

Analysis of high-molecular-weight glutenin subunits in five amphidiploids and their parental diploid species Aegilops umbellulata and Aegilops uniaristata

作者其他论文 更多>>

Pan-genome bridges wheat structural variations with habitat and breeding

Fine-mapping and candidate gene identification for QPtn.sau-4B showing potential in increasing productive tiller number and yield in wheat

New concerns about arsenic contamination in agricultural fields: an in-depth understanding of the occurrence and regulatory strategies for rice straighthead disease

A modified method for the simultaneous determination of fluindapyr and its metabolites residues in vegetables and fruits by SPE and UHPLC-MS/ MS

Multi-omics reveals the mechanism of Sparassis latifolia polysaccharides to relieve cyclophosphamide-induced immune injury in liver of mice

Enhancing cellulose and hemicellulose degradation in wheat straw composting by inoculation with Glycomyces: key factors and microbial community dynamics

Targeted Metabolomics Combined with OPLS-DA to Elucidate Phenolic Differences in Eight Cashew Apples

作者其他论文更多>>