Welcome to Acta Agronomica Sinica,

Acta Agron Sin ›› 2006, Vol. 32 ›› Issue (06): 805-810.

• ORIGINAL PAPERS • Previous Articles     Next Articles

Detection of QTLs for Resistance to Rice Stripe Virus and Small Brown Planthopper in Rice (Oryza sativa L.)

SUN Dai-Zhen1, JIANG Ling1, LIU Shi-Jia 1, ZHANG Ying-Xin1, HUANG Pei-Hong1 ,CHENG Xia-Nian1,ZHAI Hu-Qu2, WAN Jian-Min 1 2 *

  

  1. (1 State Key Laboratory for Crop Genetics and Germplasm Enhancement, Nanjing Agricultural University, Jiangsu Research Center of Plant Gene Engineering, Nanjing 210095, Jiangsu; 2 Crop Science Research Institute, Chinese Academy of Agricultural Sciences, Beijing 100081, China)
  • Received:2005-07-05 Revised:1900-01-01 Online:2006-06-12 Published:2006-06-12
  • Contact: WAN Jian-Min

PDF

1042

Cited

27

Abstract:

An indica variety, Kasalath, is highly resistant to rice stripe virus and small brown planthopper. In order to dissect the relationship between rice stripe virus and small brown planthopper resistance genes, the QTLs were detected using Nipponbare/Kasalath//Nipponbare backcross inbred lines. One putative QTL (qSTV11) for the ratio of disease rating index was mapped between the marker S2260 and G257 on chromosome 11, which explained 35.79% of the total phenotypic variation with LOD score of 9.2. The positive resistant effect came from Kasalath. The two QTLs (qSBPH3-a, qSBPH3-b) for non-preference index were detected on chromosome 3, and their contributions to the total variation were 11.69% and 11.36% with LOD scores of 3.12 and 2.96, respectively. This suggests that the rice stripe virus and small brown planthopper resistance are controlled by different genes and this view is testified by no significant correlation between RSV and SBPH resistance. Then, two pairs of epistatic QTLs for ratio of disease rating index and non-preference index were respectively detected, showing the rice stripe virus and small brown planthopper resistance were influenced by main-effect QTLs and epistatic QTLs. Additionally, further study found that SSR marker BJ11-8 was tightly linked to qSTV11. This facilitates the breeding process for resistance to rice stripe disease by marker-assisted selection.

Key words: Rice stripe virus, Laodelphax striatellus Fallen, Backcross inbred lines (BILs), QTL analysis, Epistasis

CLC Number: 

  • S511
[1] LUO Lan, LEI Li-Xia, LIU Jin, ZHANG Rui-Hua, JIN Gui-Xiu, CUI Di, LI Mao-Mao, MA Xiao-Ding, ZHAO Zheng-Wu, HAN Long-Zhi. Mapping QTLs for yield-related traits using chromosome segment substitution lines of Dongxiang common wild rice (Oryza rufipogon Griff.) and Nipponbare (Oryza sativa L.) [J]. Acta Agronomica Sinica, 2021, 47(7): 1391-1401.
[2] Xiao-Qiang ZHAO,Bin REN,Yun-Ling PENG,Ming-Xia XU,Peng FANG,Ze-Long ZHUANG,Jin-Wen ZHANG,Wen-Jing ZENG,Qiao-Hong GAO,Yong-Fu DING,Fen-Qi CHEN. Epistatic and QTL × environment interaction effects for ear related traits in two maize (Zea mays) populations under eight watering environments [J]. Acta Agronomica Sinica, 2019, 45(6): 856-871.
[3] Li-Juan AI,Qiang CHEN,Chun-Yan YANG,Long YAN,Feng-Min WANG,Rong-Chao GE,Meng-Chen ZHANG. Mapping Main-effect and Epistatic QTL for Hard Seededness in Soybean [J]. Acta Agronomica Sinica, 2018, 44(6): 852-858.
[4] CHEN Qiang,YAN Long,DENG Ying-Ying,Xiao Er-ning,Liu Bing-Qiang,YANG Chun-Yan*,ZHANG Meng-Chen*. Mapping Quantitative Trait Loci for Seed Size and Shape Traits in Soybean [J]. Acta Agron Sin, 2016, 42(09): 1309-1318.
[5] FENG Jian-Ying,WEN Yang-Jun,ZHANG Jin,ZHANG Yuan-Ming. Advances on Methodologies for Genome-wide Association Studies in Plants [J]. Acta Agron Sin, 2016, 42(07): 945-956.
[6] YU Yong-Tao,LI Gao-Ke,QI Xi-Tao,LI Chun-Yan,MAO Ji-Hua,HU Jian-Guang*. Mapping and Epistatic Interactions of QTLs for Pericarp Thickness in Sweet Corn [J]. Acta Agron Sin, 2015, 41(03): 359-366.
[7] ZHANG Ling,LI Xiao-Nan,WANG Wei,YANG Sheng-Long,LI Qing,WANG Jia-Yu. Analysis of QTLs for Plant Type Traits in Rice (Oryza sativa) [J]. Acta Agron Sin, 2014, 40(12): 2128-2135.
[8] WU Ya-Hui,TAO Xing-Xing,XIAO Wu-Ming,GUO Tao,LIU Yong-Zhu,WANG Hui,CHEN Zhi-Qiang. Dissection of QTLs for Panicle Traits in Rice (Oryza sativa) [J]. Acta Agron Sin, 2014, 40(02): 214-221.
[9] FAN Dong-Mei,MA Zhan-Zhou,LIU Chun-Yan,YANG Zhe,ZENG Qing-Li,XIN Da-Wei,JIANG Hong-Wei,QIU Peng-Cheng,CHEN Qing-Shan,HU Guo-Hua. Analysis of Related Interactions and Mapping of QTLs for Seed Weight per Plant in Soybean in Different Years [J]. Acta Agron Sin, 2013, 39(06): 1021-1029.
[10] ZHANG Wei-Qiang,KU Li-Xia,ZHANG Jun,HAN Zan-Ping,CHEN Yan-Hui. QTL Analysis of Kernel Ratio, Kernel Depth and 100-Kernel Weight in Maize (Zea mays L.) [J]. Acta Agron Sin, 2013, 39(03): 455-463.
[11] YAN Ning,XIE Shang-Qian,GENG Qing-Chun,XU Yu,LI Guang-Jun,LIU Bing,WANG Xia,LI Qi-Gang,ZHANG Yuan-Ming. Genetic Basics of Seed Traits in Soybean with Bayes Hierarchical Generalized Linear Model Method [J]. Acta Agron Sin, 2013, 39(02): 258-268.
[12] FENG Yue, ZAI Rong-Rong, CAO Li-Yong, LIN Ze-Chuan, WEI Xin-Hua, CHENG Shi-Hua. QTL Analysis for Plant Height and Heading Date in Rice under Two Nitrogen Levels [J]. Acta Agron Sin, 2011, 37(09): 1525-1532.
[13] LI Hua-Li, CHEN Mei-Xia, ZHOU Dong-Xin, CHEN Shun-Hui, TAO Ai-Fen, LI Yan-Kun, MA Gong-Bo, QI Jian-Min, GUO Yu-Chun. QTL Analysis of Six Important Traits in Tobacco (Nicotiana tabacum L.) [J]. Acta Agron Sin, 2011, 37(09): 1577-1584.
[14] ZHANG Hong-Gen, HU Zuo-Peng, LI Peng, LI Bo, LIU Chao, ZHU Bang-Hui, XU Ji-Fen, CHOU Zhong-Yi, TANG Shu-Zhu, LIANG Guo-Hua, GU Ming-Hong. Improving the Resistance of Wuyunjing 8 to Rice Stripe Virus via Molecular Marker-Assisted Selection [J]. Acta Agron Sin, 2011, 37(05): 745-754.
[15] WANG Jian, YANG Xiao-Jie, FEI Qiang-Li, WANG Chun-Lian, LIU Pi-Qiang, ZHAO Kai-Jun. New Restorer Lines and Genetic Analysis of Pingxiang Dominant Genic Male Sterile Rice [J]. Acta Agron Sin, 2011, 37(03): 552-558.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
Add: No. 80 Xueyuan South Rd, Beijing 100081, P. R. China E-mail: zwxb301@caas.cn
Supported by Beijing Magtech Co.Ltd