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Acta Agron Sin ›› 2009, Vol. 35 ›› Issue (4): 608-614.doi: 10.3724/SP.J.1006.2009.00608

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

Evaluation of Resistance of a Novel Rice Germplasm YSBR1 to Sheath Blight

ZUO Shi-Min,WANG Zi-Bin,CHEN Xi-Jun,GU Fang,ZHANG Ya-Fang,CHEN Zong-Xiang,PAN Xue-Biao*   

  1. Key Laboratory of Plant Functional Genomics of Ministry of Education/Key Laboratory of Crop Genetics and Physiology of Jiangsu Province,Yangzhou University, Yangzhou 225009,China
  • Received:2008-08-15 Revised:2008-12-09 Online:2009-04-12 Published:2009-02-13
  • Contact: PAN Xue-Biao E-mail:shuidao@yzu.edu.cn

Abstract:

A novel rice line YSBR1 with resistance to sheath blight (SB) was identified from the progenies of a cross between varieties of japonica and indica. The resistance of YSBR1 to SB was evaluated with multiple replications in the field and greenhouse and inhibition rate of embryo root growth by SB-toxin was investigated also. The results indicated that the resistance of YSBR1 to SB was significantly higher than that of other germplasms tested, and was stable and reliable; the average SB disease score of YSBR1 was 2.39±0.23 and reached “resistant” grade based on a “0–9” SB disease rating system. Line YSBR1 has an appropriate growth period duration and an improved plant type, with semi-dwarf plant (102±4.32 cm), slightly rolled and erect leaves. These results suggested that line YSBR1 has potentially high value for study on genetics and can be useful for improvement of resistance to SB in rice breeding.

Key words: Rice, Sheath blight, Novel germplasm YSBR1, Resistance evaluation, Resistance level

[1]Liao H-N(廖皓年), Xiao L-S(肖陵生), Wang H-S(王华生). Analysis of sheath blight developing history and evolving matter. Guangxi Plant Protection (广西植保), 1997, (3): 35–38(in Chinese)
[2]Pan X-B(潘学彪), Rush M C. Studies in the U.S. on genetics and breeding of resistance to rice sheath blight. J Jiangsu Agric Coll (江苏农业院学报), 1997, 18(1): 57–64 (in Chinese with English abstract)
[3]Chen Z-X(陈宗祥), Zou J-H(邹军煌), Xu J-Y(徐敬友), Tong Y-H(童蕴慧), Tang S-Z(汤述翥), Wang Z-B(王子斌), Jiang R-M(蒋日民), Ling B(凌兵), Tang J(唐进), Pan X-B(潘学彪). A preliminary study on resources of resistance to rice sheath blight. Chin J Rice Sci (中国水稻科学), 2000, 14(1): 15–18 (in Chinese with English abstract)
[4]Liu Y-F(刘永峰), Chen Z-Y(陈志谊), Ji J-A(吉健安), Liu Y-Z(刘邮洲). Analysis on sheath blight resistance of rice cultivars and candidate cultivars in evaluation test in Jiangsu province. Jiangsu Agric Sci (江苏农业科学), 2006, (1): 27–28 (in Chinese)
[5]Zhang S(张舒), Chen Q-Z(陈其志), Lü L(吕亮), Yang X-L(杨小林), Yu D-Z(喻大昭). Assessment of the variety resistance to Pyricularia grisea and Rhizoctonia solani induced under the natural condition in Hubei province. J Huazhoung Agric Univ (华中农业大学学报), 2006, 25(3): 236–240 (in Chinese with English abstract)
[6]Zhang K-Z(张楷正), Li P(李平), Li N(李娜), Xiang X-C(向珣朝). Research progress in germplasm, heredity and breeding of resistance to rice sheath blight. Mol Plant Breed (分子植物育种), 2006, 4(5): 713–720 (in Chinese with English abstract)
[7]Xie Q J, Linscombe S D, Rush M C, Jodari-karimi F. Registration of LSBR-33 and LSBR-5, sheath blight-resistant germplasm lines of rice. Crop Sci, 1992, 32: 507
[8]Pan X-B(潘学彪), Chen Z-X(陈宗祥), Zhang Y-F(张亚芳), Zhu J(朱健), Ji X-M(纪雪梅). Preliminary evaluation for breeding advancement of resistance to rice sheath blight. Chin J Rice Sci (中国水稻科学), 2001, 15(3): 218–220 (in Chinese with English abstract)
[9]Huang S-W(黄世文), Wang L(王玲), Wang Q-Y(王全永), Tang S-Q(唐绍清), E Z-G(鄂志国), Wang L(王磊). Disease and insect pest resistance and agronomic traits of rice variety ZH5 with sheath blight resistance. Chin J Rice Sci (中国水稻科学), 2007, 21(6): 657–663 (in Chinese with English abstract)
[10]Ao S-E(敖世恩), Yang M(杨媚), Zhou E-X(周而勋), Tang Q-F(唐倩菲), Pan R-Q(潘汝谦). Screening of rice somatic mutants resistant to rice sheath blight in vitro. J South China Agric Univ (华南农业大学学报), 2006, 27(1): 47–50 (in Chinese with English abstract)
[11]Yuan X-P(袁筱萍), Wei X-H(魏兴华), Yu H-Y(余汉勇), Wang Y-P(王一平), Tang S-X(汤圣祥). Effects of different cultivars and relative factors on sheath blight resistance of rice. Acta Agron Sin (作物学报), 2004, 30(8): 768–773 (in Chinese with English abstract)
[12]Zheng T-Q(郑天清), Xu J-L(徐建龙), Fu B-Y(傅彬英), Gao Y-M(高用明), Veruka S, Lafitte R, Zhai H-Q(翟虎渠), Wan J-M(万建民), Zhu L-H(朱苓华), Li Z-K(黎志康). Preliminary identification of genetic overlaps between sheath blight resistance and drought tolerance in the introgression lines from directional selection. Acta Agron Sin (作物学报), 2007, 33(8): 1380–1384 (in Chinese with English abstract)
[13]Xiang X-C(向珣朝), Wang S-Q(王世全), He L-B(何立斌), Li J-H(李季航), Li P(李平). The finding of a mutant material with high resistance to rice sheath blight and its preliminary genetic analysis. Acta Agron Sin (作物学报), 2005, 31(9): 1236–1238 (in Chinese with English abstract)
[14]Zou J H, Pan X B, Chen Z X, Xu J Y, Lu J F, Zhai W X, Zhu L H. Mapping quantitative trait loci controlling sheath blight resistance in two rice cultivars (Oryza sativa L.). Theor Appl Genet, 2000, 101: 569–575
[15]Kunihiro Y(国广泰史), Qian Q(钱前), Sato H(佐藤宏之), Teng S(滕胜), Zeng D-L(曾大力), Fujmoto K(藤本宽), Zhu L-H(朱立煌). QTL analysis of sheath blight resistance in rice (Oryza sativa L.). Acta Genet Sin (遗传学报), 2002, 29(1): 50–55 (in Chinese with English abstract)
[16]Han Y P, Xing Y Z, Gu S L, Chen Z X, Pan X B, Chen X L. Effect of morphological traits on sheath blight resistance in rice. Acta Bot Sin, 2003, 45(7): 825–831
[17]Sato H, Ideta O, Audo I, Kunihiro Y, Hirabayashi H, Iwano M, Miyasaka A, Nemoto H, Imbe T. Mapping QTLs for sheath blight resistance in the rice line WSS2. Breed Sci, 2004, 54: 265–271
[18]Pinson S R M, Capdevielle F M, Oard J H. Confirming QTLs and finding additional loci conditioning sheath blight resistance in rice using recombinant inbred lines. Crop Sci, 2005, 45: 503–510
[19]Zuo S M, Zhang L, Wang H, Yin Y J, Zhang Y F, Chen Z X, Ma Y Y, Pan X B. Prospect of the QTL-qSB-9Tq utilized in molecular breeding program of japonica rice against sheath blight. J Genet Genomics, 2008, 35: 499–505
[20]Pan X-B(潘学彪), Chen Z-X(陈宗祥), Xu J-Y(徐敬友), Tong Y-H(童蕴慧), Wang Z-B(王子斌), Pan X-Y(潘兴元). The effects of different methods of inoculation and investigation on genetic research of resistance to rice sheath blight. J Jiangsu Agricultural Coll (江苏农学院学报), 1997, 18(3): 27–32 (in Chinese with English abstract)
[21]Zuo S-M(左示敏), Zhang Y-F(张亚芳), Yin Y-J(殷跃军), Chen Z-X(陈宗祥), Pan X-B(潘学彪). Establishment and improvement of inoculation technique and rating system in researching rice sheath blight resistance in field. J Yangzhou Univ (Agric & Life Sci Edn) (扬州大学学报·农业与生命科学版), 2006, 27(4): 57–61 (in Chinese with English abstract)
[22]Xu J-Y(徐敬友), Zhang H-D(张华东), Zhang H(张红), Tong Y-H(童蕴慧), Xu Y(徐艳), Chen X-J(陈夕军), Ji Z-L(纪兆林). Toxin produced by Rhizoctonia solani and its relationship with pathogenicity of the fungus. J Yangzhou University (Agric & Life Sci Edn) (扬州大学学报·农业与生命科学版), 2004, 25(2): 61–64 (in Chinese with English abstract)
[23]Eizenga G C, Lee F N, Rutger J N. Screening Oryza species plants for rice sheath blight resistance. Plant Dis, 2002, 86: 808–812
[24]Jia Y, Correa-Victoria F, McClung A, Zhu L, Liu G, Wamishe Y, Xie J, Marchetti M A, Pinson S R M, Rutger J N, Correll J C. Rapid determination of rice cultivar responses to the sheath blight pathogen Rhizoctonia solani using a micro-chamber screening method. Plant Dis, 2007, 91: 485–489
[25]Brooks S A. Sensitivity to a phytotoxin from Rhizoctonia solani correlates with sheath blight susceptibility in rice. Phytopathology, 2007, 97: 1207–1212
[26]Yuan L-P(袁隆平). Rice breeding of hybrid rice for high yield. Hybrid Rice (杂交水稻), 1997, 12(6): 1–6(in Chinese)
[27]Tang D-Z(唐定中), Wang J-L(王金陵), Li W-M(李维明). Somatic mutant of rice in resistance to sheath blight in vitro. J Fujian Agric Univ (福建农业大学学报), 1997, 26(1): 8–12(in Chinese with English abstract)
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