河北省农林科学院机构知识库

Enhancing Fusarium crown rot resistance by pyramiding large-effect QTL in common wheat (Triticum aestivum L.)

收藏
分享
全文链接

文献类型：外文期刊

作者： Zheng, Zhi ¹ ; Gao, Shang ¹ ; Zhou, Meixue ⁴ ; Yan, Guijun ³ ; Liu, Chunji ¹ ;

作者机构： 1.CSIRO Agr & Food, 306 Carmody Rd, St Lucia, Qld 4067, Australia

2.Hebei Acad Agr & Forestry Sci, Inst Millet Crops, Natl Foxtail Millet Improvement Ctr, Shijiazhuang, Hebei, Peoples R China

3.Univ Western Australia, Sch Agr & Environm, Perth, WA 6009, Australia

4.Univ Tasmania, Sch Land & Food, Private Bag 54, Hobart, Tas 7001, Australia

5.Tasmanian Inst Agr, Private Bag 54, Hobart, Tas 7001, Australia

关键词： Fusariumcrown rot;Host resistance;Wheat

期刊名称：MOLECULAR BREEDING （影响因子：2.589；五年影响因子：2.75 ）

ISSN：

年卷期：

页码：

收录情况： SCI

摘要： Fusarium crown rot (FCR) has become one of the most damaging cereal diseases in semi-arid regions worldwide. Targeting three large-effect QTL (located on the chromosome arm 3BL, 5DS and 2DL, respectively), we investigated the feasibility of enhancing FCR resistance by gene pyramiding. Significant effects were detected for each of the three QTL in both populations assessed. Lines with any combination of two resistant alleles gave significantly better resistance than those with a single resistant allele only and those without any allele, and lines possessing all three resistant alleles showed the best resistance. These results demonstrated that gene pyramiding can be an effective approach in improving FCR resistance. Those lines with resistant alleles from all three QTL could be valuable genetic stocks for breeding programs.

相关文献

[1]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

[2]Molecular cytogenetic analysis of intergeneric chromosomal translocations between wheat (Triticum aestivum L.) and Dasypyrum villosum arising from tissue culture. Li, HJ,Guo, BH,Li, YW,Du, LQ,Jia, X,Chu, CC. 2000

[3]Effects of the wheat UDP-glucosyltransferase gene TaUGT-B2 on Agrobacterium-mediated plant transformation. Zhou, Xiaohong,Wang, Ke,Du, Lipu,Lin, Zhishan,Ye, Xingguo,Liu, Yongwei.

[4]Homoeologous cloning of omega-secalin gene family in a wheat 1BL/1RS translocation. Chai, JF,Liu, X,Jia, JZ. 2005

[5]EFFECTS OF SOIL DROUGHT STRESS ON PLANT REGENERATION EFFICIENCY AND ENDOGENOUS HORMONE LEVELS OF IMMATURE EMBRYOS IN WHEAT (&ITTRITICUM AESTIVUM&IT L.). Bie, Xiaomin,Wang, Ke,Liu, Chang,Du, Lipu,Mao, Xinguo,Ye, Xingguo,Bie, Xiaomin,Liu, Yongwei. 2017

[6]Fate of labeled urea-N-15 as basal and topdressing applications in an irrigated wheat-maize rotation system in North China Plain: I winter wheat. Jia, Shulong,Wang, Xiaobin,Dai, Kuai,Zhao, Quansheng,Zhang, Xiaoming,Zhang, Dingchen,Feng, Zonghui,Wu, Xueping,Cai, Dianxiong,Jia, Shulong,Wang, Xiaobin,Dai, Kuai,Zhao, Quansheng,Zhang, Xiaoming,Zhang, Dingchen,Feng, Zonghui,Wu, Xueping,Cai, Dianxiong,Jia, Shulong,Yang, Yunma,Meng, Chunxiang,Sun, Yanming,Grant, Cynthia.

[7]Diversity of Growth Habits and Their Association with VRN Allele of 81 American Wheat Lines. Ji Gui-su,Zhang Qing-jiang,Bai Gui-hua. 2010

[8]Identification and characterization of a high kernel weight mutant induced by gamma radiation in wheat (Triticum aestivum L.). Cheng, Xuejiao,Chai, Lingling,Chen, Zhaoyan,Xu, Lu,Zhai, Huijie,Peng, Huiru,Yao, Yingyin,You, Mingshan,Sun, Qixin,Ni, Zhongfu,Cheng, Xuejiao,Chai, Lingling,Chen, Zhaoyan,Xu, Lu,Zhai, Huijie,Peng, Huiru,Yao, Yingyin,You, Mingshan,Sun, Qixin,Ni, Zhongfu,Cheng, Xuejiao,Chai, Lingling,Chen, Zhaoyan,Xu, Lu,Zhai, Huijie,Peng, Huiru,Yao, Yingyin,You, Mingshan,Sun, Qixin,Ni, Zhongfu,Cheng, Xuejiao,Chai, Lingling,Chen, Zhaoyan,Xu, Lu,Zhai, Huijie,Peng, Huiru,Yao, Yingyin,You, Mingshan,Sun, Qixin,Ni, Zhongfu,Cheng, Xuejiao,Chai, Lingling,Chen, Zhaoyan,Xu, Lu,Zhai, Huijie,Peng, Huiru,Yao, Yingyin,You, Mingshan,Sun, Qixin,Ni, Zhongfu,Zhao, Aiju. 2015

[9]Cloning and characterization of the Na+/H+ antiport genes from Triticum aestivum. Wang, ZN,Zhang, JS,Guo, BH,He, SJ,Tian, AG,Chen, SY. 2002

[10]Transformation of wheat with a gene encoding for the betaine aldehyde dehydrogenase (BADH). Guo, BH,Zhang, YM,Li, HJ,Du, LQ,Li, YX,Zhang, JS,Chen, SY,Zhu, ZQ. 2000

[11]Involvement of calcium-calmodulin in the expression of hsp26 gene in wheat. Liu, HT,Zhao, H,Li, B,Sun, DY,Zhou, RG. 2001

[12]A procedure allowing up to eight generations of wheat and nine generations of barley per annum. Zheng, Z.,Chen, G. D.,Liu, C. J.,Zheng, Z.,Yan, G. J.,Zheng, Z.,Yan, G. J.,Zheng, Z.,Wang, H. B.,Chen, G. D..

[13]Wheat acclimate to water deficit by modifying carbohydrates metabolism, water use efficiency, and growth. Hu, MengYun,Li, Hui,Shi, ZhiGang,Xu, Ping,Zhang, Zhengbin.

[14]Effects of calmodulin on DNA-binding activity of heat shock transcription factor in vitro. Li, B,Liu, HT,Mu, RL,Sun, DY,Zhou, RG.

[15]Using Subtracted AFLP to Efficiently Mark an Alien Chromosome Fragment in Wheat Background. Chai, JF,Wu, ZM,Zhao, H,Laroche, A,Wang, HB.

作者其他论文更多>>

Shortening generation times for winter cereals by vernalizing seedlings from young embryos at 10 degree Celsius

作者：Zheng, Zhi;Liu, Chunji;Gao, Shang;Wang, Haibo

关键词：embryo culture; fast generation cycles; speed breeding; vernalization temperature; winter crops
QTL and candidate genes for heterophylly in soybean based on two populations of recombinant inbred lines

作者：Chen, Qiang;Liu, Bingqiang;Yan, Long;Lin, Jing;Shi, Xiaolei;Wei, Yu;Feng, Yan;Yang, Chunyan;Zhang, Mengchen;Chen, Qiang;Ai, Lijuan;Zhao, Hongtao;Liu, Chunji

关键词：heterophylly; QTL; soybean; leaf shape; breeding
Development of tightly linked markers and identification of candidate genes for Fusarium crown rot resistance in barley by exploiting a near-isogenic line-derived population

作者：Jiang, Yunfeng;Habib, Ahsan;Zheng, Zhi;Liu, Chunji;Jiang, Yunfeng;Wei, Yuming;Zheng, You-Liang;Habib, Ahsan;Zhou, Meixue;Habib, Ahsan;Zhou, Meixue;Habib, Ahsan;Zheng, Zhi

关键词：
iTRAQ protein profile analysis of developmental dynamics in soybean [Glycine max (L.) Merr.] leaves

作者：Qin, Jun;Wang, Fengmin;Wang, Jinghua;Zhang, Mengchen;Qin, Jun;Shi, Ainong;Chen, Pengyin;Zhang, Jianan;Zheng, Zhi;Yin, Changcheng;Chen, Hao;Zhang, Bo

关键词：
Accelerated Generation of Selfed Pure Line Plants for Gene Identification and Crop Breeding

作者：Yan, Guijun;Liu, Hui;Mullan, Daniel;Hamblin, John;Liu, Chunji;Yan, Guijun;Liu, Hui;Mullan, Daniel;Hamblin, John;Liu, Chunji;Wang, Haibo;Lu, Zhanyuan;Wang, Yanxia;Mullan, Daniel;Hamblin, John;Liu, Chunji

关键词：selfed pure lines;recombinant inbred lines (RILs);near isogenic lines (NILs);doubled haploid (DH);fast generation cycling system (FGCS);crop breeding
Fine mapping of a large-effect QTL conferring Fusarium crown rot resistance on the long arm of chromosome 3B in hexaploid wheat

作者：Zheng, Zhi;Ma, Jian;Stiller, Jiri;Manners, John M.;Liu, Chunji;Zheng, Zhi;Liu, Chunji;Zheng, Zhi;Liu, Chunji;Zheng, Zhi;Yan, Guijun;Ma, Jian;Zheng, You-Liang;Wei, Yuming;Zhao, Qiang;Feng, Qi;Han, Bin;Choulet, Frederic;Feuillet, Catherine

关键词：Fusarium crown rot;Fine mapping;Hexaploid wheat;Co-segregating;SSR marker
A high-throughput pipeline for detecting locus-specific polymorphism in hexaploid wheat (Triticum aestivum L.)

作者：Ma, Jian;Liu, Ya-Xi;Wei, Yuming;Zheng, You-Liang;Ma, Jian;Stiller, Jiri;Zheng, Zhi;Liu, Chunji;Zheng, Zhi;Liu, Chunji;Zheng, Zhi

关键词：Allopolyploid;Multiple sequence alignment;blastn;Primer design;Genome-specificity;Sequence polymorphism

Enhancing Fusarium crown rot resistance by pyramiding large-effect QTL in common wheat (Triticum aestivum L.)

作者其他论文 更多>>

Shortening generation times for winter cereals by vernalizing seedlings from young embryos at 10 degree Celsius

QTL and candidate genes for heterophylly in soybean based on two populations of recombinant inbred lines

Development of tightly linked markers and identification of candidate genes for Fusarium crown rot resistance in barley by exploiting a near-isogenic line-derived population

iTRAQ protein profile analysis of developmental dynamics in soybean [Glycine max (L.) Merr.] leaves

Accelerated Generation of Selfed Pure Line Plants for Gene Identification and Crop Breeding

Fine mapping of a large-effect QTL conferring Fusarium crown rot resistance on the long arm of chromosome 3B in hexaploid wheat

A high-throughput pipeline for detecting locus-specific polymorphism in hexaploid wheat (Triticum aestivum L.)

意 见 箱

作者其他论文更多>>

意见箱