Welcome to Acta Agronomica Sinica,

Acta Agron Sin ›› 2012, Vol. 38 ›› Issue (10): 1775-1781.doi: 10.3724/SP.J.1006.2012.01775

• CROP GENETICS & BREEDING·GERMPLASM RESOURCES·MOLECULAR GENETICS • Previous Articles     Next Articles

Using Marker-Assisted Selection to Improve the Resistance to Rice Black-Streaked Dwarf Viral Disease of Huaidao 5, an Elite Japonica Rice Cultivar in Jiangsu

LI Ai-Hong1,*,PAN Cun-Hong1,**,DAI Zheng-Yuan1,XIAO Ning1,YU Ling1,LI Yu-Hong1,ZHANG Xiao-Xiang1,ZHANG Hong-Xi1,PAN Xue-Biao2   

  1. 1 Lixiahe Agricultural Research Institute of Jiangsu Province/Yangzhou Station of Nanjing Sub-center of National Rice Improvement Center, Yangzhou 225007, China; 2 Key Laboratory of Plant Functional Genomics, Ministry of Education, Yangzhou University, Yangzhou 225009, China
  • Received:2012-02-13 Revised:2012-06-20 Online:2012-10-12 Published:2012-07-27
  • Contact: 李爱宏, E-mail: yzlah@126.com

PDF

985

Abstract:

Rice black-streaked dwarf viral disease (RBSDV), a kind of viral disease transmitted by small plant hopper, broke out recently in Jiangsu and Zhejiang provinces of China and posed a serious threat to rice production. Based on mapping of the QTLsfor RBSDV resistance previously, we used the resistant parent Minghui 63 as donor, the susceptible japonica cultivar Huaidao 5 as recurrent parent, and bred a series of Near-isogenic lines (NILs) aiming at two closely linked QTLs on the short arm of Chromosome 6 in rice. Natural inoculation and artificial inoculation results showed that RBSDV incidence rate of NILs was about 25% lower than that of recurrent parent and the resistance of NILs was improved significantly. Agronomic traits of most NILs, such as heading date, plant height, and yield components were similar to those of recurrent parent, indicating that the target chromosome region contains few linkage drags. The strategies for fine mapping the target QTLs and pyramiding more QTLs in the way of breed improvement were also discussed.

Key words: RBSDV, Huaidao 5, MAS, NILs, Resistance evaluation

[1]Milne R G, Lovisolo O. Maize rough dwarf and related viruses. Adv Virus Res, 1977, 21: 267–341



[2]Azuhata F, Uyeda I, Kimura I, Shikata E. Close similarity between genome structures of rice black-streaked dwarf and maize rough dwarf viruses. J Gen Virol, 1993, 74: 1227–1232



[3]Wang H D, Chen J P, Wang A G, Jiang X H, Adams M J. Studies on the epidemiology and yield losses from rice black-streaked dwarf disease in a recent epidemic in Zhejiang province, China. Plant Pathol, 2009, 58: 815-825



[4]Chen S-X(陈声祥), Wu H-L(吴惠玲), Liao X-G(廖璇刚), Lü Y-P(吕永平), Shen S-F(沈升法), Wang O-F(王藕芳), Jin M-S(金梅松). The prevalent reason of rice black-streaked dwarf viral disease in the middle of Zhejiang. Zhejiang Agric Sci (浙江农业科学), 2000, (6): 287–289 (in Chinese)



[5]Qiu X-P(仇学平), Cheng L-P(程来品), Yang J(杨军), Zhang L-C(张连成), Hu Y(胡毓). Investigation of susceptibility of different rice varieties to rice black-streaked dwarf virus disease. Shanghai Agric Sci (上海农业科技), 2010, (4): 131 (in Chinese)



[6]Ren S-M(任世民), Hu W-Y(胡务义). The prevalent characteristics and control techniques of rice black-streaked dwarf viral diseases in Chunan. Hangzhou Agric Sci (杭州农业科技), 2007, (4): 7–9 (in Chinese)



[7]Li A-H(李爱宏), Dai Z-Y(戴正元), Ji H-J(季红娟), Zhang X-X(张小祥), Li Y-H(李育红), Pan C-H(潘存红), Zhang H-X(张洪熙), Pan X-B(潘学彪). Preliminary analysis on resistance of rice black-streaked dwarf viral disease for germplasms with different gene-types. J Yangzhou Univ (Agric & Life Sci Edn)(扬州大学学报•农业与生命科学版), 2008, 29(3): 18–22 (in Chinese with English abstract)



[8]Wang B-X(王宝祥), Jiang L(江玲), Chen L-M(陈亮明), Lu B-G(卢百关), Wang Q(王琦), Li G-Q(黎光泉), Fan J-W(樊继伟), Cheng X-N(程遐年), Zhai H-Q(翟虎渠), Xu D-Y(徐大勇), Wan J-M(万建民). Screeing of rice resources against rice black-streaked dwarf virus and mapping of resistant QTL. Acta Agron Sin (作物学报), 2010, 36(8): 1258–1264 (in Chinese with English abstract) 



[9]Pan C-H(潘存红), Li A-H(李爱宏), Chen Z-X(陈宗祥), Wu L-B(吴林波), Dai Z-Y(戴正元), Zhang H-X(张洪熙), Huang N-S(黄年生), Chen X-J(陈夕军), Zhang Y-F(张亚芳), Zuo S-M(左示敏), Pan X-B(潘学彪). Detection of QTL for resistance to rice black-streaked dwarf viral disease. Acta Agron Sin (作物学报), 2009, 35(12): 2213–2217 (in Chinese with English abstract)



[10]Hospital F, Chevalet C, Mulsant P. Using markers in gene introgression breeding programs. Genetics, 1992, 132: 1199–1210



[11]Lu Y-J(卢扬江), Zheng K-L(郑康乐). A simple method for extracting rice DNA. Chin J Rice Sci(中国水稻科学), 1992, 6(1): 47–48 (in Chinese with English abstract)



[12]Lü Y-P(吕永平), Lei J-L(雷娟利), Jin D-D(金登迪), Chen S-X(陈声祥). Detect RBSDV with RT-PCR. Acta Agric Zhejiangensis (浙江农业学报), 2002, 14(2): 117–119 (in Chinese)



[13]Wu A-G(吴爱国), Zhang S-C(张守成), Gu K-L(顾开联), Zhang R-Q(张如群), Ma L(马林). Screening for resistant rice varieties in Lixiahe region. Chin Agric Tech Exten (中国农技推广), 2006, (4): 18–19 (in Chinese)



[14]Li A-H(李爱宏), Dai Z-Y(戴正元), Ji H-J(季红娟), Zhang X-X(张小祥), Li Y-H(李育红), Pan C-H(潘存红), Zhang H-X(张洪熙), Pan X-B(潘学彪). Analysis on the combining ability of resistance to rice black-streaked dwarf viral disease (RBSDV) in indica hybrid rice. J Yangzhou Univ (Agric & Life Sci Edn)(扬州大学学报•农业与生命科学版), 2009, 30(1): 18–22 (in Chinese with English abstract)



[15]Chen S-X(陈声祥), Yu J-B(余舰斌), Qin W-S(秦文胜), Liu L(刘力), Gao D-M(高东明), Xu J(徐静), Wang Y-F(王一风). Studies on stunt disease of hybrid rice in Wenzhou. Virol Sin (中国病毒学), 1993, 8(4): 373–378 (in Chinese with English abstract)



[16]Wang H-D(王华弟), Zhu Z-R(祝增荣), Chen J-P(陈剑平), Wang E-G(汪恩国), Li B-F(李宝福). Epidemics, monitoring and key control techniques of the rice black-streaked dwarf viral disease. Acta Agric Zhejiangensis (浙江农业学报), 2007, 19(3): 141–146 (in Chinese with English abstract)



[17]Pan X-B(潘学彪), Zhang Y-F(张亚芳), Zuo S-M(左示敏), Chen Z-X(陈宗祥). Discussion on QTLs identification and application for important quantitative traits in crops. J Yangzhou Univ (Agric & Life Sci Edn)(扬州大学学报•农业与生命科学版), 2005, 26(2): 50–55 (in Chinese with English abstract)



[18]Luo L-G(罗林广), Xu J-F(徐俊峰), Zhai H-Q(翟虎渠), Wan J-M(万建民). Analysis of photoperiod-sensitivity genes in Minghui 63, a restorer line of indica rice (Oryza sativa L.). Acta Genet Sin (遗传学报), 2003, 30(9): 804–810 (in Chinese with English abstract)



[19]Wei X J, Jiang L, Xu J F, Liu X, Liu S J, Zhai H Q, Wan J M. The distribution of japonica rice cultivars in the lower region of the Yangtze River valley is determined by its photoperiod-sensitivity and heading date genotypes. J Integr Plant Biol, 2009, 51: 922–932



[20]Yano M, Katayose Y, Ashikari M, Yamanouchi U, Monna L, Fuse T, Baba T,Yamanoto K, Umehara Y, Nagamura Y, and Sasaki T. Hd1, a major photoperiod sensitivity quantitative trait locus in rice, is closely related to the Arabidopsis flowering time gene CONSTANS. Plant Cell, 12: 2473–2483
[1] WANG Wang-Nian, GE Jun-Zhu, YANG Hai-Chang, YIN Fa-Ting, HUANG Tai-Li, KUAI Jie, WANG Jing, WANG Bo, ZHOU Guang-Sheng, FU Ting-Dong. Adaptation of feed crops to saline-alkali soil stress and effect of improving saline-alkali soil [J]. Acta Agronomica Sinica, 2022, 48(6): 1451-1462.
[2] YANG Xin, LIN Wen-Zhong, CHEN Si-Yuan, DU Zhen-Guo, LIN Jie, QI Jian-Min, FANG Ping-Ping, TAO Ai-Fen, ZHANG Li-Wu. Molecular identification of a geminivirus CoYVV and screening of resistant germplasms in jute [J]. Acta Agronomica Sinica, 2022, 48(3): 624-634.
[3] ZHANG Jia-Kang, LI Fei, SHI Shu-De, YANG Hai-Bo. Construction and application of the critical nitrogen concentration dilution model of sugar beet in Inner Mongolia, China [J]. Acta Agronomica Sinica, 2022, 48(2): 488-496.
[4] ZHANG Jian, XIE Tian-Jin, WEI Xiao-Nan, WANG Zong-Kai, LIU Chong-Tao, ZHOU Guang-Sheng, WANG Bo. Estimation of feed rapeseed biomass based on multi-angle oblique imaging technique of unmanned aerial vehicle [J]. Acta Agronomica Sinica, 2021, 47(9): 1816-1823.
[5] XI Ling, WANG Yu-Qi, ZHU Wei, WANG Yi, CHEN Guo-Yue, PU Zong-Jun, ZHOU Yong-Hong, KANG Hou-Yang. Identification of resistance to wheat and molecular detection of resistance genes to wheat stripe rust of 78 wheat cultivars (lines) in Sichuan province [J]. Acta Agronomica Sinica, 2021, 47(7): 1309-1323.
[6] HAN Yu-Zhou, ZHANG Yong, YANG Yang, GU Zheng-Zhong, WU Ke, XIE Quan, KONG Zhong-Xin, JIA Hai-Yan, MA Zheng-Qiang. Effect evaluation of QTL Qph.nau-5B controlling plant height in wheat [J]. Acta Agronomica Sinica, 2021, 47(6): 1188-1196.
[7] WEI Huan-He, ZHANG Xu-Bin, GE Jia-Lin, MENG Tian-Yao, LU Yu, LI Xin-Yue, TAO Yuan, DING En-Hao, CHEN Ying-Long, DAI Qi-Gen. Dynamics in above-ground biomass accumulation after transplanting and its characteristic analysis in Yongyou japonica/indica hybrids [J]. Acta Agronomica Sinica, 2021, 47(3): 546-555.
[8] ZHAO Xu-Yang, YAO Fang-Jie, LONG Li, WANG Yu-Qi, KANG Hou-Yang, JIANG Yun-Feng, LI Wei, DENG Mei, LI Hao, CHEN Guo-Yue. Evaluation of resistance to stripe rust and molecular detection of resistance genes of 93 wheat landraces from the Qinghai-Tibet spring and winter wheat zones [J]. Acta Agronomica Sinica, 2021, 47(10): 2053-2063.
[9] YU Ning-Ning,ZHANG Ji-Wang,REN Bai-Zhao,ZHAO Bin,LIU Peng. Effect of integrated agronomic managements on leaf growth and endogenous hormone content of summer maize [J]. Acta Agronomica Sinica, 2020, 46(6): 960-967.
[10] YAO Chen-Tao,QIAO Zhi-Hua,SONG Xue-Hui,ZHANG Feng-Wen,SUN Xiao,LI Gang,LI Xiang-Dong,ZHANG Ji-Wang,JIANG Xing-Yin. Effect of different film-forming agents on the persistence and safety of thiacloprid suspension concentrate for seed coating for maize [J]. Acta Agronomica Sinica, 2020, 46(02): 269-279.
[11] YAN Qing-Qing,ZHANG Ju-Song,DAI Jian-Min,DOU Qiao-Qiao. Effects of glycinebetain on photosynthesis and biomass accumulation of island cotton seedlings under saline alkali stress [J]. Acta Agronomica Sinica, 2019, 45(7): 1128-1135.
[12] RU Xiao-Ya,LI Guang,CHEN Guo-Peng,ZHANG Tong-Shuai,YAN Li-Juan. Regulation effects of water and nitrogen on wheat yield and biomass in different precipitation years [J]. Acta Agronomica Sinica, 2019, 45(11): 1725-1734.
[13] ZHANG An-Ning,LIU Yi,WANG Fei-Ming,XIE Yue-Wen,KONG De-Yan,NIE Yuan-Yuan,ZHANG Fen-Yun,BI Jun-Guo,YU Xin-Qiao,LIU Guo-Lan,LUO Li-Jun. Pyramiding and evaluation of brown planthopper resistance genes in water-saving and drought-resistance restorer line [J]. Acta Agronomica Sinica, 2019, 45(11): 1764-1769.
[14] Yu TIAN,Lei YANG,Ying-Hui LI,Li-Juan QIU. Development and Utilization of KASP Marker for SCN3-11 Locus Resistant to Soybean Cyst Nematode [J]. Acta Agronomica Sinica, 2018, 44(11): 1600-1611.
[15] Hai-Xia WU,Li-Li GUO,Li-Hua HAO,Hao ZHANG,Qing-Tao WANG,Dong-Juan CHENG,Zheng-Ping PENG,Fei LI,Xi-Xi ZHANG,Shu-Bin LI,Ming XU,Yun-Pu ZHENG. Effects of Water and CO2 Concentration on Stomatal Traits, Leaf Gas Exchange, and Biomass of Winter Wheat [J]. Acta Agronomica Sinica, 2018, 44(10): 1570-1576.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
Add: No.12 Zhongguancun South Street, Beijing 100081,China Email:xbzw@chinajournal.net.cn
Supported by Beijing Magtech Co.Ltd