农科机构知识库联盟

Different genes can be responsible for crown rot resistance at different developmental stages of wheat and barley

文献类型：外文期刊

第一作者： Yang, Xueming

作者： Yang, Xueming;Ma, Jun;Li, Haobing;Liu, Chunji;Yang, Xueming;Ma, Hongxiang;Yao, Jinbao;Ma, Jun;Liu, Chunji

作者机构：

关键词： germplasm screening;inoculation methods.;Fusarium diseases;QTL mapping;Internet resource.

期刊名称：EUROPEAN JOURNAL OF PLANT PATHOLOGY （影响因子：1.907；五年影响因子：2.022 ）

ISSN：

年卷期：

页码：

收录情况： SCI

摘要： Crown rot, caused by several Fusarium species, is one of the most damaging diseases in wheat and barley. Growing resistant varieties has long been recognised as an integral part in effectively managing the disease. One of the factors hindering the progress of breeding for crown rot resistance is the lack of a reliable and high throughput bioassay that allows rapid and accurate assessment of large numbers of genotypes so that highly susceptible materials can be quickly rejected and potentially resistant lines identified for more focused further assessments. We developed a method which, by growing several inoculated seedlings wrapped in a single piece of moist paper towel, offers significant advantages over all of the existing methods. The new soil-less assay takes only about two weeks, requires very little space, and removes variability associated with the use of soil/potting mixes. Results from the new assay are highly reproducible and agree well with known field performances of different varieties. However, mapping studies conducted using the new soil-less assay did not detect all of the quantitative trait loci found with a soil-based assay. These results show that, although different resistance genes may all contribute to the performance of a variety, caution should be used when comparing results from different assays.

分类号： S432.1

相关文献

[1]A Kelch Motif-Containing Serine/Threonine Protein Phosphatase Determines the Large Grain QTL Trait in Rice. Hu, Zejun,Sun, Fan,Xin, Xiaoyun,Qian, Xi,Yang, Jingshui,Luo, Xiaojin,Hu, Zejun,He, Haohua,Wang, Wenxiang,Zhang, Shiyong. 2012

[2]High-Density Linkage Map Construction and Mapping of Salt-Tolerant QTLs at Seedling Stage in Upland Cotton Using Genotyping by Sequencing (GBS). Latyr Diouf,Du, Xiongming,Zhaoe Pan,Shou-Pu He,Wen-Fang Gong,Yin Hua Jia,Richard Odongo Magwanga,Kimbembe Romesh Eric Romy,Harun or Rashid,Joy Nyangasi Kirungu,Xiongming Du. 2017

[3]Dynamic QTL mapping for plant height in Upland cotton (Gossypium hirsutum). Shang, Lianguang,Abduweli, Abdugheni,Cai, Shihu,Liu, Fang,Wang, Kunbo,Wang, Yumei.

[4]High-Density Genetic Mapping Identifies New Major Loci for Tolerance to Low-Phosphorus Stress in Soybean. Zhang, Dan,Li, Hongyan,Chu, Shanshan,Lv, Haiyan,Wang, Jinshe,Zhang, Hengyou,Hu, Zhenbin,Yu, Deyue. 2016

[5]A Dominant Locus, qBSC-1, Controls beta Subunit Content of Seed Storage Protein in Soybean (Glycine max (L.) Merri.). Wang Jun,Liu Lin,Guo Yong,Wang Yong-hui,Zhang Le,Jin Long-guo,Guan Rong-xia,Liu Zhang-xiong,Wang Lin-lin,Chang Ru-zhen,Qiu Li-juan. 2014

[6]A major QTL controlling seed dormancy and pre-harvest sprouting resistance on chromosome 4A in a Chinese wheat landrace. Bai, Gui-Hua,Chen, Cui-Xia,Cai, Shi-Bin,Cai, Shi-Bin. 2008

[7]Genetic Linkage Map Construction and QTL Analysis of Two Interspecific Reproductive Isolation Traits in Sponge Gourd. Wu, Haibin,He, Xiaoli,Gong, Hao,Luo, Shaobo,Li, Mingzhu,Chen, Junqiu,Zhang, Changyuan,Huang, Wangping,Luo, Jianning,Wu, Haibin,Luo, Shaobo,Yu, Ting. 2016

[8]Identification of QTL Associated with Nitrogen Uptake and Nitrogen Use Efficiency Using High Throughput Genotyped CSSLs in Rice (Oryza sativa L.). Zhou, Yong,Tao, Yajun,Tang, Dongnan,Zhong, Jun,Wang, Yi,Yuan, Qiumei,Yu, Xiaofeng,Zhang, Yan,Wang, Yulong,Liang, Guohua,Dong, Guichun,Wang, Jun. 2017

[9]RFLP-facilitated investigation of the quantitative resistance of rice to brown planthopper (Nilaparvata lugens). Xu, XF,Mei, HW,Luo, LJ,Cheng, XN,Li, ZK. 2002

[10]Quantitative trait loci for Aluminum resistance in wheat cultivar Chinese Spring. Ma, Hong-Xiang,Bai, Gui-Hua,Lu, Wei-Zhong. 2006

[11]Fine Mapping of qTGW3-1, a QTL for 1 000-Grain Weight on Chromosome 3 in Rice. Zhang Qiang,Yao Guo-xin,Hu Guang-long,Chen Chao,Tang Bo,Zhang Hong-liang,Li Zi-chao,Zhang Qiang,Yao Guo-xin. 2012

[12]An integrated analysis of QTL mapping and RNA sequencing provides further insights and promising candidates for pod number variation in rapeseed (Brassica napus L.). Ye, Jiang,Yang, Yuhua,Shi, Jiaqin,Zhan, Jiepeng,Wang, Xinfa,Liu, Guihua,Wang, Hanzhong,Chen, Bo,Luo, Meizhong. 2017

[13]Novel and favorable genomic regions for spike related traits in a wheat germplasm Pubing 3504 with high grain number per spike under varying environments. Chen Dan,Wu Xiao-yan,Zhang Jin-pen,Liu Wei-hu,Yang Xin-ming,Li Xiu-quan,Lu Yu-qing,Li Li-hui,Chen Dan,Wu Ku. 2017

[14]A novel functional gene associated with cold tolerance at the seedling stage in rice. Zhao, Junliang,Zhang, Shaohong,Dong, Jingfang,Yang, Tifeng,Mao, Xingxue,Liu, Qing,Wang, Xiaofei,Liu, Bin,Zhao, Junliang,Zhang, Shaohong,Dong, Jingfang,Yang, Tifeng,Mao, Xingxue,Liu, Qing,Wang, Xiaofei,Liu, Bin. 2017

[15]Molecular tagging of QTLs for fiber quality and yield in the upland cotton cultivar Acala-Prema. Ning Zhiyuan,Mei, Hongxian,Zhang, Tianzhen,Chen, Hong. 2014

[16]A high-density genetic map for anchoring genome sequences and identifying QTLs associated with dwarf vine in pumpkin (Cucurbita maxima Duch.). Zhang, Guoyu,Ren, Yi,Sun, Honghe,Guo, Shaogui,Zhang, Fan,Zhang, Jie,Zhang, Haiying,Jia, Zhangcai,Xu, Yong,Li, Haizhen,Sun, Honghe,Fei, Zhangjun,Fei, Zhangjun. 2015

[17]Quantitative Trait Loci Associated with Drought Tolerance in Brachypodium distachyon. Jiang, Yiwei,Pei, Zhongyou,Liu, Huifen,Jiang, Yiwei,Zhao, Xiongwei,Wang, Xicheng,Yu, Xiaoqing,Zhao, Xiongwei,Luo, Na,Garvin, David F.,Garvin, David F.. 2017

[18]Integrating Small RNA Sequencing with QTL Mapping for Identification of miRNAs and Their Target Genes Associated with Heat Tolerance at the Flowering Stage in Rice. Liu, Qing,Yang, Tifeng,Zhang, Shaohong,Mao, Xingxue,Zhao, Junliang,Wang, Xiaofei,Dong, Jingfang,Liu, Bin,Liu, Qing,Yang, Tifeng,Zhang, Shaohong,Mao, Xingxue,Zhao, Junliang,Wang, Xiaofei,Dong, Jingfang,Liu, Bin,Yu, Ting. 2017

[19]QTL mapping of flag leaf traits in common wheat using an integrated high-density SSR and SNP genetic linkage map. Wu, Qiuhong,Chen, Yongxing,Fu, Lin,Zhou, Shenghui,Chen, Jiaojiao,Zhao, Xiaojie,Zhang, Dong,Ouyang, Shuhong,Wang, Zhenzhong,Li, Dan,Wang, Guoxin,Zhang, Deyun,Yuan, Chengguo,You, Mingshan,Liu, Zhiyong,Yuan, Chengguo,Wang, Lixin,Han, Jun.

[20]Genetic analysis and QTL mapping of traits related to head shape in cabbage (Brassica oleracea var. capitata L.). Mang, Xiaoli,Liu, Yumei,Fang, Zhiyuan,Yang, Limei,Zhuang, Mu,Zhang, Yangyong,Li, Zhansheng,Lv, Honghao,Su, Yanbin.

作者其他论文更多>>

Assessing and Quantifying the Carbon, Nitrogen, and Enzyme Dynamics Effects of Inter-row Cover Cropping on Soils and Apple Tree Development in Orchards

作者：Ma, Jun;Li, Guangzong;Jia, Yonghua;Chu, Yannan;Yue, Haiying;Wang, Haixia;Li, Xiaolong;Tian, Jianwen

关键词：cropping; enzymes; fruit tree performance; nitrogen; soil carbon; Vicia sepium
Hydroxyl-aluminum pillared bentonite enhanced Mn(II) removal by chlorine oxidation

作者：Qian, Sheng;Wang, Zihao;Yu, Yifei;Lu, Hao;Jia, Zhen;Ma, Yuxin;Qian, Sheng;Ma, Yuxin;Shi, Fengmei;Ma, Jun

关键词：Al-PILC; Chlorine oxidation; Catalytic oxidation; Self -catalytic oxidation
Identification of a novel and plant height-independent QTL for coleoptile length in barley and validation of its effect using near isogenic lines

作者：Gao, Shang;Su, Zhouyang;Liu, Chunji;Zheng, Zhi;Gao, Shang;Li, Huihui;Gao, Shang;Li, Huihui;Su, Zhouyang;Ma, Jun;Ma, Jian

关键词：
A phase-separated protein hub modulates resistance to Fusarium head blight in wheat

作者：He, Yi;Wang, Yuhua;Dong, Yifan;Zhang, Zhengguang;Li, Gang;He, Yi;Wu, Lei;Jiang, Peng;Zhang, Xu;Yang, Xiujuan;Tucker, Matthew R.;Xia, Xiaobo;Jiang, Cong;Ma, Hongxiang;Ma, Wujun;Liu, Cong;Whitford, Ryan

关键词：
AcMYB266, a key regulator of the red coloration in pineapple peel: a case of subfunctionalization in tandem duplicated genes

作者：Zhang, Wei;Wu, Jing;Liu, Chaoyang;Yi, Wen;Zhong, Ziqin;Yang, Mingzhe;He, Yehua;He, Junhu;Chen, Chengjie;Luan, Aiping;He, Junhu;Chen, Chengjie;Luan, Aiping;Xie, Jingyao;Wu, Ya;Xie, Tao;Ma, Jun

关键词：
Grain Chalkiness Is Decreased by Balancing the Synthesis of Protein and Starch in Hybrid Indica Rice Grains under Nitrogen Fertilization

作者：Guo, Changchun;Zhang, Lin;Jiang, Peng;Xu, Fuxian;Guo, Xiaoyi;Guo, Changchun;Yang, Zhiyuan;Chen, Zongkui;Sun, Yongjian;Ma, Jun

关键词：N rate; chalkiness features; C and N metabolism; endogenous hormones; dynamic accumulation
Large-scale breeding population validating significant loci for the 1000-kernel weight of wheat

作者：Jiang, Peng;Li, Chang;Wu, Lei;He, Yi;Zhang, Peng;Zhang, Xu;Jiang, Peng;Wu, Lei;He, Yi;Zhang, Peng;Zhang, Xu;Cui, Fa;Zhang, Zhaoyang;Ma, Hongxiang;Zhang, Xu;Jiang, Peng;Zhang, Xu

关键词：

Different genes can be responsible for crown rot resistance at different developmental stages of wheat and barley

作者其他论文 更多>>

Assessing and Quantifying the Carbon, Nitrogen, and Enzyme Dynamics Effects of Inter-row Cover Cropping on Soils and Apple Tree Development in Orchards

Hydroxyl-aluminum pillared bentonite enhanced Mn(II) removal by chlorine oxidation

Identification of a novel and plant height-independent QTL for coleoptile length in barley and validation of its effect using near isogenic lines

A phase-separated protein hub modulates resistance to Fusarium head blight in wheat

AcMYB266, a key regulator of the red coloration in pineapple peel: a case of subfunctionalization in tandem duplicated genes

Grain Chalkiness Is Decreased by Balancing the Synthesis of Protein and Starch in Hybrid Indica Rice Grains under Nitrogen Fertilization

Large-scale breeding population validating significant loci for the 1000-kernel weight of wheat

作者其他论文更多>>