江苏省多基因聚合对水稻稻瘟病抗性的效应分析及Pb1基因功能标记开发
|
摘要
【目的】研究多基因聚合对水稻稻瘟病抗性的效应,并开发Pb1基因功能标记,为江苏省培育持久抗稻瘟病品种及提高其育种效率提供理论依据。【方法】开发Pb1基因的功能标记,并结合Pita、Pib、Pi54、Pikm和Pizt功能标记检测2015─2017年参加江苏省预试的703份常规粳稻材料的抗病基因,分析其聚合方式与稻瘟病抗性的相关性。【结果】在Pb1基因编码区上游926~1085 bp设计1个存在/缺失标记M1,其引物可扩增获得160 bp的片段。703份供试材料中,Pita、Pib和Pi54基因频率高于Pikm、Pb1和Pizt,虽然抗病频率(稻瘟病综合指数≤5.0的材料所占比例)在2015─2017年呈逐年快速升高趋势,但3年间达中抗及以上等级的材料所占比例均较低。不含抗病基因的材料11份,综合指数≤5.0的材料4份,抗病频率为36.36%;当所含抗病基因数≤3个时,随着含抗病基因数的增加,对应的材料数量、出现频率和综合指数≤5.0的材料数量均明显增加,当所含抗病基因数≥4个时,随着含抗病基因数的增加,对应的材料数量、出现频率和综合指数≤5.0的材料数量均明显降低。抗病基因数越多,抗病频率越高,当抗病基因数达6个时,抗病频率达100.00%,说明聚合的抗病基因数与抗病频率呈正相关。3个抗病基因聚合的最佳方式为:Pi54+Pib+Pb1或Pita+Pib+Pikm。4个抗病基因聚合的最佳方式为Pita+Pib+Pikm+Pizt或Pita+Pi54+Pib+Pb1。【结论】开发的Pb1基因功能标记可应用于水稻稻瘟病抗性育种,以提高选择效率。多基因聚合能提高水稻稻瘟病抗性,但抗性强弱取决于抗性基因间的互作效应,并不是简单的累加效应。
【Objective】Studying the effect of multiple genes polymerization on rice blast resistance could guide breeding rice blast resistant varieties and improve breeding efficiency in Jiangsu Province.【Method】Functional markers of Pb1 was developed,and resistance genes of 703 japonica rices for preliminary experiment in the year of 2015,2016 and2017 in Jiangsu were detected using functional markers of Pita,Pib,Pi54,Pikm and Pizt,then the correlation between polymerization mode and rice blast resistance was analyzed.【Result】A presence/deletion marker M1 was designed near1016 bp upstream of the coding region of Pb1. Its primer could amplify 160 bp fragment. Among the 703 materials,the gene frequency of Pita,Pib and Pi54 was higher than that of Pikm,Pb1 and Pizt. Although the frequency of rice blast resistance(the proportion of materials with composite index of blast ≤5.0)increased rapidly year by year from 2015 to 2017,the moderate resistance and above level ratios were low during the three years. Among the 703 materials tested,11 did not contain resistance genes,of which 4 materials had a composite index ≤5.0 and the resistance frequency of 36.36%. When the number of disease-resistant genes was ≤3,the number of materials,frequency of occurrence and the number of materials whose composite index was ≤5.0 increased greatly with the increase of the number of disease resistant genes. When the number of disease resistant genes was ≥4,the number of materials,the frequency of gene occurrence and the number of materials whose composite index was ≤5.0 decreased greatly with the increase of the number of disease resistant genes.The higher the number of resistance genes,the higher the resistance frequency. When the number of resistance genes reached 6,the resistance frequency reached 100.00%. This indicated that the number of multiple genes polymerization was positively correlated with the resistance frequency. The optimal polymerization mode for three genes was Pi54+Pib+Pb1 or Pita+Pib+Pikm. The optimal polymerization mode for four genes was Pita+Pib+Pikm+Pizt or Pita+Pi54+Pib+Pb1.【Conclusion】The developed functional markers of Pb1 can be used in rice blast resistance breeding to improve selection efficiency. Polygenic polymerization can improve the resistance level of rice blast,but the resistance depends on the interaction between resistant genes,not simply the cumulative effect.
【Objective】Studying the effect of multiple genes polymerization on rice blast resistance could guide breeding rice blast resistant varieties and improve breeding efficiency in Jiangsu Province.【Method】Functional markers of Pb1 was developed,and resistance genes of 703 japonica rices for preliminary experiment in the year of 2015,2016 and2017 in Jiangsu were detected using functional markers of Pita,Pib,Pi54,Pikm and Pizt,then the correlation between polymerization mode and rice blast resistance was analyzed.【Result】A presence/deletion marker M1 was designed near1016 bp upstream of the coding region of Pb1. Its primer could amplify 160 bp fragment. Among the 703 materials,the gene frequency of Pita,Pib and Pi54 was higher than that of Pikm,Pb1 and Pizt. Although the frequency of rice blast resistance(the proportion of materials with composite index of blast ≤5.0)increased rapidly year by year from 2015 to 2017,the moderate resistance and above level ratios were low during the three years. Among the 703 materials tested,11 did not contain resistance genes,of which 4 materials had a composite index ≤5.0 and the resistance frequency of 36.36%. When the number of disease-resistant genes was ≤3,the number of materials,frequency of occurrence and the number of materials whose composite index was ≤5.0 increased greatly with the increase of the number of disease resistant genes. When the number of disease resistant genes was ≥4,the number of materials,the frequency of gene occurrence and the number of materials whose composite index was ≤5.0 decreased greatly with the increase of the number of disease resistant genes.The higher the number of resistance genes,the higher the resistance frequency. When the number of resistance genes reached 6,the resistance frequency reached 100.00%. This indicated that the number of multiple genes polymerization was positively correlated with the resistance frequency. The optimal polymerization mode for three genes was Pi54+Pib+Pb1 or Pita+Pib+Pikm. The optimal polymerization mode for four genes was Pita+Pib+Pikm+Pizt or Pita+Pi54+Pib+Pb1.【Conclusion】The developed functional markers of Pb1 can be used in rice blast resistance breeding to improve selection efficiency. Polygenic polymerization can improve the resistance level of rice blast,but the resistance depends on the interaction between resistant genes,not simply the cumulative effect.
引文
蔡海亚,周雷,闸雯俊,李三和,刘凯,焦春海,游艾青,徐得泽.2015.水稻抗稻瘟病基因Piz-t特异性分子标记开发及应用[J].分子植物育种,13(7):1457-1461.[Cai H Y,Zhou L,Zha W J,Li S H,Liu K,Jiao C H,You A Q,Xu D Z.2015.Development and application of rice blast resistant gene Piz-t gene-specific molecular marker[J].Molecular Plant Breeding,13(7):1457-1461.]
范方军,王芳权,刘永峰,王军,朱金燕,李文奇,仲维功,杨杰.2014.Pi-b,Pi-ta,Pikm和Pi54对水稻穗颈瘟的抗性评价[J].华北农学报,29(3):221-226.[Fan F J,Wang FQ,Liu Y F,Wang J,Zhu J Y,Li W Q,Zhong W G,Yang J.2014.Evaluation of resistance to rice panicle blast with resistant genes Pi-b,Pi-ta,Pikm and Pi54[J].Acta Agriculturae Boreali-Sinica,29(3):221-226.]
黄乾龙,管玉圣,欧阳杰,郭爽,王楚桃,李贤勇.2019.重庆自育水稻骨干亲本稻瘟病抗性评价[J].南方农业学报,50(1):8-15.[Huang Q L,Guan Y S,Ouyang J,Guo S,Wang C T,Li X Y.2019.Resistance evaluation of selfbred rice backbone parents germplasms against rice blast in Chongqing and resistance gene distribution analysis[J].Journal of Southern Agriculture,50(1):8-15.]
江苏省种子管理站.2015.江苏省农作物品种中间试验总结汇编(2015)[G].南京:江苏省种子管理站.[Jiangsu Seed Station.2015.Summary and compilation of intermediate trials of crop varieties in Jiangsu Province(2015)[G].Nanjing:Jiangsu Seed Station.]
江苏省种子管理站.2016.江苏省农作物品种中间试验总结汇编(2016)[G].南京:江苏省种子管理站.[Jiangsu Seed Station.2016.Summary and compilation of intermediate trials of crop varieties in Jiangsu Province(2016)[G].Nanjing:Jiangsu Seed Station.]
江苏省种子管理站.2017.江苏省农作物品种中间试验总结汇编(2017)[G].南京:江苏省种子管理站.[Jiangsu Seed Station.2017.Summary and compilation of intermediate trials of crop varieties in Jiangsu Province(2017)[G].Nanjing:Jiangsu Seed Station.]
刘斌,毕振佳,何平,韩光煜,董丽英,杨勤忠,王云月.2018.云南省主栽水稻品种抗稻瘟病基因型鉴定[J].分子植物育种,16(22):7362-7371.[Liu B,Bi Z J,He P,Han G Y,Dong L Y,Yang Q Z,Wang Y Y.2018.Genotype identification of blast resistance in major rice varieties in Yunnan Province[J].Molecular Plant Breeding,16(22):7362-7371.]
刘士平,李信,汪朝阳,李香花,何予卿.2003.基因聚合对水稻稻瘟病的抗性影响[J].分子植物育种,1(1):22-26.[Liu S P,Li X,Wang Z Y,Li X H,He Y Q.2003.Gene pyramiding to increase the blast resistance in rice[J].Molecular Plant Breeding,1(1):22-26.]
刘万才,刘振东,黄冲,陆明红,刘杰,杨清坡.2016.近10年农作物主要病虫害发生危害情况的统计和分析[J].植物保护,42(5):1-9.[Liu W C,Liu Z D,Huang C,Lu MH,Liu J,Yang Q P.2016.Statistics and analysis of crop yield losses caused by main diseases and insect pests in recent 10 years[J].Plant Protection,42(5):1-9.]
宋兆强,刘艳,王宝祥,王芳权,迟铭,刘金波,陈庭木,方兆伟,邢运高,徐波,杨波,杨杰,徐大勇.2017.稻瘟病抗性基因Pi-ta、Pi-b、Pi54和Pi-km的育种利用价值评价[J].江苏农业学报,33(5):968-974.[Song Z Q,Liu Y,Wang B X,Wang F Q,Chi M,Liu J B,Chen T M,Fang Z W,Xing Y G,Xu B,Yang B,Yang J,Xu D Y.2017.Application value of blast resistant genes Pi-ta,Pi-b,Pi54 and Pi-km inrice breeding[J].Jiangsu Journal of Agricultural Sciences,33(5):968-974.]
孙大元,周丹华,张景欣,王慧,朱小源,杨祁云,陈志强.2017.广谱抗源H4中2个主效抗病基因的单基因系构建及评价[J].江苏农业学报,33(1):1-5.[Sun D Y,Zhou D H,Zhang J X,Wang H,Zhu X Y,Yang Q Y,Chen ZQ.2017.Development of near-isogenic lines for two blast resistance genes in an indicarice H4[J].Jiangsu Journal of Agricultural Sciences,33(1):1-5.]
孙立亭,林添资,王云龙,牛梅,胡婷婷,刘世家,王益华,万建民.2017.水稻白条纹突变体st13的表型分析及基因定位[J].中国水稻科学,31(4):355-363.[Sun L T,Lin T Z,Wang Y L,Niu M,Hu T T,Liu S J,Wang Y H,Wan JM.2017.Phenotypic analysis and gene mapping of a white stripe mutant st13 in rice[J].Chinese Journal of Rice Science,31(4):355-363.]
肖宇龙,李湘民,余传元,雷建国,王智权,王晓玲,何虎,邱在辉,肖宇华.2018.江西省稻瘟病生理小种致病力测定及1组水稻优质新种质的稻瘟病抗性表现及应用评估[J].江西农业学报,30(4):9-13.[Xiao Y L,Li X M,Yu CY,Lei J G,Wang Z Q,Wang X L,He H,Qiu Z H,Xiao Y H.2018.Pathogenicity of physiological races of rice blast disease in Jiangxi Province,blast-resistant performance and application evaluation of a set of new highquality rice germplasms[J].Acta Agriculturae Jiangxi,30(4):9-13.]
张善磊,孙旭超,陈涛,赵春芳,朱镇,赵庆勇,周丽慧,赵凌,姚姝,王才林.2018.Pi-ta、Pi-5、Pi-km和Pi-b基因在粳稻品种(系)中的分布及对穗颈瘟的抗性[J].江苏农业学报,34(5):961-971.[Zhang S L,Sun X C,Chen T,Zhao C F,Zhu Z,Zhao Q Y,Zhou L H,Zhao L,Yao S,Wang C L.2018.Distribution of Pi-ta,Pi-5,Pi-km and Pi-b genes in japonica rice varieties(lines)and their relationship with neck blast resistance[J].Jiangsu Journal of Agriculture Sciences,34(5):961-971.]
Andersen J R,Lǖbberstedt T.2003.Functional markers in plants[J].Trends in Plant Science,8(11):554-560.
Ashikawa I,Hayashi N,Abe F,Wu J,Matsumoto T.2012.Characterization of the rice blast resistance gene Pik cloned from Kanto 51[J].Molecular Breeding,30(1):485-494.
Ashikawa I,Hayashi N,Yamane H,Kanamori H,Wu J,Matsumoto T,Ono K,Yano M.2008.Two adjacent nucleotidebinding site-leucine-rich repeat class genes are required to confer Pikm-specific rice blast resistance[J].Genetics,180(4):2267-2276.
Bryan G T,Wu K S,Farrall L,Jia Y L,Hershey H P,Mc Adams S A,Faulk K N,Donaldson G K,Tarchini R,Valent B.2000.A single amino acid difference distinguishes resistant and susceptible alleles of the rice blast resistance gene Pi-ta[J].The Plant Cell Online,12(11):2033-2046.
Chen J,Shi Y F,Liu W Z,Chai R Y,Fu Y P,Zhuang J Y,Wu J L.2011.A Pid3 allele from rice cultivar Gumei2confers resistance to Magnaporthe oryzae[J].Journal of Genetics and Genomics,38(5):209-216.
Chen X,Shang J,Chen D,Lei C,Zou Y,Zhai W,Liu G,Xu J,Ling Z,Cao G,Ma B,Wang Y,Zhao X,Li S,Zhu L.2006.A B-lectin receptor kinase gene conferring rice blast resistance[J].The Plant Journal,46(5):794-804.
Das A,Soubam D,Singh P K,Thakur S,Singh N K,Sharma T R.2012.A novel blast resistance gene,Pi54rh cloned from wild species of rice,Oryza rhizomatis confers broad spectrum resistance to Magnaporthe oryzae[J].Functional&Integrative Genomics,12(2):215-228.
Deng Y,Zhai K,Xie Z,Yang D,Zhu X,Liu J,Wang X,Qin P,Yang Y,Zhang G,Li Q,Zhang J,Wu S,Milazzo J,Mao B,Wang E,Xie H,Tharreau D,He Z.2017.Epigenetic regulation of antagonistic receptors confers rice blast resistance with yield balance[J].Science,355(6328):962-965.
Fjellstrom R,Conaway-Bormans C A,McClung A M,Marchetti M A,Shank A R,Park W D.2004.Development of DNA markers suitable for marker assisted selection of three Pi genes conferring resistance to multiple Pyricularia grisea pathotypes[J].Crop Science,44(5):1790-1798.
Fujii K,Saito Y H,Saito K,Sugiura N,Hayashi N,Tsuji T,Izawa T,Iwasaki M.2000.Identification of a RFLPmarker tightly linked to the panicle blast resistance gene,Pb1,in rice[J].Breeding science,50(3):183-188.
Fukuoka S,Saka N,Koga H,Ono K,Shimizu T,Ebana K,Hayashi N,Takahashi A,Hirochika H,Okuno K,Yano M.2009.Loss of function of a proline-containing protein confers durable disease resistance in rice[J].Science,325(5943):998-1001.
Hayashi K,Yasuda N,Fujita Y,Koizumi S,Yoshida H.2010a.Identification of the blast resistance gene Pit in rice cultivars using functional markers[J].Theoretical and Applied Genetics,121(7):1357-1367.
Hayashi N,Inoue H,Kato T,Funao T,Shirota M,Shimizu T,Kanamori H,Yamane H,Saito Y H,Matsumoto T,Yano M,Takatsuji H.2010b.Durable panicle blast-resistance gene Pb1 encodes an atypical CC-NBS-LRR protein and was generated by acquiring a promoter through local genome duplication[J].The Plant Journal,64(3):498-510.
Hittalmani S,Parco A,Mew T V,Zeigler R S,Huang N.2000.Fine mapping and DNA marker-assisted pyramiding of the three major genes for blast resistance in rice[J].Theoretical and Applied Genetics,100(7),1121-1128.
Hua L X,Wu J Z,Chen C X,Wu W H,He X Y,Lin F,Wang L,Ashikawa I,Matsumoto T,Wang L,Pan Q H.2012.The isolation of Pi1,an allele at the Pik locus which confers broad spectrum resistance to rice blast[J].Theoretical and Applied Genetics,125(5):1047-1055.
Jeon J S,Chen D,Yi G H,Wang G L,Ronald P C.2003.Genetic and physical mapping of Pi5(t),a locus associated with broad-spectrum resistance to rice blast[J].Molecular Genetics and Genomics,269(2):280-289.
Jia Y,Wang Z,Singh P.2002.Development of dominant rice blast Pi-ta resistance gene markers[J].Crop Science,42(6):2145-2149.
Khush G S,Jena K K.2009.Current status and future prospects for research on blast resistance in rice(Oryza sative L.)[J].Advances in Genetics,Genomics and Control of Rice Blast Disease.doi:10.1007/978-1-4020-9500-9_1.
Koide Y,Kobayashi N,Xu D,Fukuta Y.2009.Resistance genes and selection DNA markers for blast disease in rice(Oryza sativa L.)[J].Japan Agricultural Research Quarterly,43(4):255-280.
Lin F,Chen S,Que Z,Wang L,Liu X,Pan Q.2007.The blast resistance gene Pi37 encodes a nucleotide binding site-leucine-rich repeat protein and is a member of a resistance gene cluster on rice chromosome 1[J].Genetics,177(3):1871-1880.
Liu Y,Liu B,Zhu X,Yang J,Bordeos A,Wang G,Leach J E,Leung H,Liu Y.2013.Fine-mapping and molecular marker development for Pi56(t),a NBS-LRR gene conferring broad-spectrum resistance to Magnaporthe oryzae in rice[J].Theoretical and Applied Genetics,126(4):985-998.
Mackill D J,Bonman J M.1992.Inheritance of blast resistance in near-isogenic lines of rice[J].Phytopathology,82(7):746-749.
Miah G,Rafii M Y,Ismail M R,Peteh A B,Rahim H A,Aafaliza R,Latif M A.2013.Blast resistance in rice:a review of conventional breeding to molecular approaches[J].Molecular Biology Reports,40(3):2369-2388.
Okuyama Y,Kanzaki H,Abe A,Yoshida K,Tamiru M,Saitoh H,Fujibe T,Matsumura H,Shenton M,Galam D C,Undan J,Ito A,Sone T,Terauchi R.2011.A multifaceted genomics approach allows the isolation of the rice Pia-blast resistance gene consisting of two adjacent NBS-LRR protein genes[J].The Plant Journal,66(3):467-479.
Qu S,Liu G,Zhou B,Bellizzi M,Zeng L,Dai L,Han B,Wang G L.2006.The broad-spectrum blast resistance gene Pi9 encodes a nucleotide-binding site-leucine-rich repeat protein and is a member of a multi-gene family in rice[J].Genetics,172(3):1901-1914.
Ramkumar G,Srinivasarao K,Mohan K M,Sudarshan I,Sivaranjani A K P,Gopalakrishna K,Neeraja C N,Balachandran S M,Sundaram R M,Prasad M S,Rani NS,Rama Prasad A M,Viraktamath B C,Madhav M S,Ramkumar G.2011.Development and validation of functional marker targeting an InDel in the major rice blast disease resistance gene Pi54(Pikh)[J].Molecular Breeding,27(1):129-135.
Shang J,Tao Y,Chen X,Zou Y,Lei C,Wang J,Li X,Zhao X,Zhang M,Lu Z,Xu J,Cheng Z,Wan J,Zhu L.2009.Identification of a new rice blast resistance gene,Pid3,by genomewide comparison of paired nucleotide-binding site-leucine-rich repeat genes and their pseudogene alleles between the two sequenced rice genomes[J].Genetics,182(4):1303-1311.
Skamnioti P,Gurr S J,2009,Against the grain:safeguarding rice from rice blast disease[J].Trends in Biotechnology,27(3):141-150.
Takahashi A,Hayashi N,Miyao A,Hirochika H.2010.Unique features of the rice blast resistance Pish locus revealed by large scale retrotransposon-tagging[J].BMC Plant Biology,10:175.
Wang Z X,Yano M,Yamanouchi U,Iwamoto M,Monna L,Hayasaka H,Katayose Y,Sasaki T.1999.The Pib gene for rice blast resistance belongs to the nucleotide binding and leucine-rich repeat class of plant disease resistance genes[J].The Plant Journal,19(1):55-64.
Xu X,Hayashi N,Wang C T,Fukuoka S,Kawasaki S,Takatsuji H,Jiang C J.2014.Rice blast resistance gene Pikahei-1(t),a member of a resistance gene cluster on chromosome 4,encodes a nucleotide-binding site and leucinerich repeat protein[J].Molecular Breeding,34(2):691-700.
Yuan B,Zhai C,Wang W J,Zeng X S,Xu X K,Hu H Q,Lin F,Wang L,Pan Q H.2011.The Pik-p resistance to Magnaporthe oryzae in rice is mediated by a pair of closely linked CC-NBS-LRR genes[J].Theoretical and Applied Genetics,122(5):1017-1028.
Zhai C,Lin F,Dong Z Q,He X Y,Yuan B,Zeng X S,Wang L,Pan Q H.2011.The isolation and characterization of Pik,a rice blast resistance gene which emerged after rice domestication[J].New Phytologist,189(1):321-334.
Zhou B,Qu S,Liu G F,Dolan M,Sakai H,Lu G D,Bellizzi M,Wang G L.2006.The eight amino-acid differences within three leucine-rich repeats between Pi2 and Piz-t resistance proteins determine the resistance specificity to Magnaporthe grisea[J].Molecular Plant Microbe Interactions,19(11):1216-1228.
范方军,王芳权,刘永峰,王军,朱金燕,李文奇,仲维功,杨杰.2014.Pi-b,Pi-ta,Pikm和Pi54对水稻穗颈瘟的抗性评价[J].华北农学报,29(3):221-226.[Fan F J,Wang FQ,Liu Y F,Wang J,Zhu J Y,Li W Q,Zhong W G,Yang J.2014.Evaluation of resistance to rice panicle blast with resistant genes Pi-b,Pi-ta,Pikm and Pi54[J].Acta Agriculturae Boreali-Sinica,29(3):221-226.]
黄乾龙,管玉圣,欧阳杰,郭爽,王楚桃,李贤勇.2019.重庆自育水稻骨干亲本稻瘟病抗性评价[J].南方农业学报,50(1):8-15.[Huang Q L,Guan Y S,Ouyang J,Guo S,Wang C T,Li X Y.2019.Resistance evaluation of selfbred rice backbone parents germplasms against rice blast in Chongqing and resistance gene distribution analysis[J].Journal of Southern Agriculture,50(1):8-15.]
江苏省种子管理站.2015.江苏省农作物品种中间试验总结汇编(2015)[G].南京:江苏省种子管理站.[Jiangsu Seed Station.2015.Summary and compilation of intermediate trials of crop varieties in Jiangsu Province(2015)[G].Nanjing:Jiangsu Seed Station.]
江苏省种子管理站.2016.江苏省农作物品种中间试验总结汇编(2016)[G].南京:江苏省种子管理站.[Jiangsu Seed Station.2016.Summary and compilation of intermediate trials of crop varieties in Jiangsu Province(2016)[G].Nanjing:Jiangsu Seed Station.]
江苏省种子管理站.2017.江苏省农作物品种中间试验总结汇编(2017)[G].南京:江苏省种子管理站.[Jiangsu Seed Station.2017.Summary and compilation of intermediate trials of crop varieties in Jiangsu Province(2017)[G].Nanjing:Jiangsu Seed Station.]
刘斌,毕振佳,何平,韩光煜,董丽英,杨勤忠,王云月.2018.云南省主栽水稻品种抗稻瘟病基因型鉴定[J].分子植物育种,16(22):7362-7371.[Liu B,Bi Z J,He P,Han G Y,Dong L Y,Yang Q Z,Wang Y Y.2018.Genotype identification of blast resistance in major rice varieties in Yunnan Province[J].Molecular Plant Breeding,16(22):7362-7371.]
刘士平,李信,汪朝阳,李香花,何予卿.2003.基因聚合对水稻稻瘟病的抗性影响[J].分子植物育种,1(1):22-26.[Liu S P,Li X,Wang Z Y,Li X H,He Y Q.2003.Gene pyramiding to increase the blast resistance in rice[J].Molecular Plant Breeding,1(1):22-26.]
刘万才,刘振东,黄冲,陆明红,刘杰,杨清坡.2016.近10年农作物主要病虫害发生危害情况的统计和分析[J].植物保护,42(5):1-9.[Liu W C,Liu Z D,Huang C,Lu MH,Liu J,Yang Q P.2016.Statistics and analysis of crop yield losses caused by main diseases and insect pests in recent 10 years[J].Plant Protection,42(5):1-9.]
宋兆强,刘艳,王宝祥,王芳权,迟铭,刘金波,陈庭木,方兆伟,邢运高,徐波,杨波,杨杰,徐大勇.2017.稻瘟病抗性基因Pi-ta、Pi-b、Pi54和Pi-km的育种利用价值评价[J].江苏农业学报,33(5):968-974.[Song Z Q,Liu Y,Wang B X,Wang F Q,Chi M,Liu J B,Chen T M,Fang Z W,Xing Y G,Xu B,Yang B,Yang J,Xu D Y.2017.Application value of blast resistant genes Pi-ta,Pi-b,Pi54 and Pi-km inrice breeding[J].Jiangsu Journal of Agricultural Sciences,33(5):968-974.]
孙大元,周丹华,张景欣,王慧,朱小源,杨祁云,陈志强.2017.广谱抗源H4中2个主效抗病基因的单基因系构建及评价[J].江苏农业学报,33(1):1-5.[Sun D Y,Zhou D H,Zhang J X,Wang H,Zhu X Y,Yang Q Y,Chen ZQ.2017.Development of near-isogenic lines for two blast resistance genes in an indicarice H4[J].Jiangsu Journal of Agricultural Sciences,33(1):1-5.]
孙立亭,林添资,王云龙,牛梅,胡婷婷,刘世家,王益华,万建民.2017.水稻白条纹突变体st13的表型分析及基因定位[J].中国水稻科学,31(4):355-363.[Sun L T,Lin T Z,Wang Y L,Niu M,Hu T T,Liu S J,Wang Y H,Wan JM.2017.Phenotypic analysis and gene mapping of a white stripe mutant st13 in rice[J].Chinese Journal of Rice Science,31(4):355-363.]
肖宇龙,李湘民,余传元,雷建国,王智权,王晓玲,何虎,邱在辉,肖宇华.2018.江西省稻瘟病生理小种致病力测定及1组水稻优质新种质的稻瘟病抗性表现及应用评估[J].江西农业学报,30(4):9-13.[Xiao Y L,Li X M,Yu CY,Lei J G,Wang Z Q,Wang X L,He H,Qiu Z H,Xiao Y H.2018.Pathogenicity of physiological races of rice blast disease in Jiangxi Province,blast-resistant performance and application evaluation of a set of new highquality rice germplasms[J].Acta Agriculturae Jiangxi,30(4):9-13.]
张善磊,孙旭超,陈涛,赵春芳,朱镇,赵庆勇,周丽慧,赵凌,姚姝,王才林.2018.Pi-ta、Pi-5、Pi-km和Pi-b基因在粳稻品种(系)中的分布及对穗颈瘟的抗性[J].江苏农业学报,34(5):961-971.[Zhang S L,Sun X C,Chen T,Zhao C F,Zhu Z,Zhao Q Y,Zhou L H,Zhao L,Yao S,Wang C L.2018.Distribution of Pi-ta,Pi-5,Pi-km and Pi-b genes in japonica rice varieties(lines)and their relationship with neck blast resistance[J].Jiangsu Journal of Agriculture Sciences,34(5):961-971.]
Andersen J R,Lǖbberstedt T.2003.Functional markers in plants[J].Trends in Plant Science,8(11):554-560.
Ashikawa I,Hayashi N,Abe F,Wu J,Matsumoto T.2012.Characterization of the rice blast resistance gene Pik cloned from Kanto 51[J].Molecular Breeding,30(1):485-494.
Ashikawa I,Hayashi N,Yamane H,Kanamori H,Wu J,Matsumoto T,Ono K,Yano M.2008.Two adjacent nucleotidebinding site-leucine-rich repeat class genes are required to confer Pikm-specific rice blast resistance[J].Genetics,180(4):2267-2276.
Bryan G T,Wu K S,Farrall L,Jia Y L,Hershey H P,Mc Adams S A,Faulk K N,Donaldson G K,Tarchini R,Valent B.2000.A single amino acid difference distinguishes resistant and susceptible alleles of the rice blast resistance gene Pi-ta[J].The Plant Cell Online,12(11):2033-2046.
Chen J,Shi Y F,Liu W Z,Chai R Y,Fu Y P,Zhuang J Y,Wu J L.2011.A Pid3 allele from rice cultivar Gumei2confers resistance to Magnaporthe oryzae[J].Journal of Genetics and Genomics,38(5):209-216.
Chen X,Shang J,Chen D,Lei C,Zou Y,Zhai W,Liu G,Xu J,Ling Z,Cao G,Ma B,Wang Y,Zhao X,Li S,Zhu L.2006.A B-lectin receptor kinase gene conferring rice blast resistance[J].The Plant Journal,46(5):794-804.
Das A,Soubam D,Singh P K,Thakur S,Singh N K,Sharma T R.2012.A novel blast resistance gene,Pi54rh cloned from wild species of rice,Oryza rhizomatis confers broad spectrum resistance to Magnaporthe oryzae[J].Functional&Integrative Genomics,12(2):215-228.
Deng Y,Zhai K,Xie Z,Yang D,Zhu X,Liu J,Wang X,Qin P,Yang Y,Zhang G,Li Q,Zhang J,Wu S,Milazzo J,Mao B,Wang E,Xie H,Tharreau D,He Z.2017.Epigenetic regulation of antagonistic receptors confers rice blast resistance with yield balance[J].Science,355(6328):962-965.
Fjellstrom R,Conaway-Bormans C A,McClung A M,Marchetti M A,Shank A R,Park W D.2004.Development of DNA markers suitable for marker assisted selection of three Pi genes conferring resistance to multiple Pyricularia grisea pathotypes[J].Crop Science,44(5):1790-1798.
Fujii K,Saito Y H,Saito K,Sugiura N,Hayashi N,Tsuji T,Izawa T,Iwasaki M.2000.Identification of a RFLPmarker tightly linked to the panicle blast resistance gene,Pb1,in rice[J].Breeding science,50(3):183-188.
Fukuoka S,Saka N,Koga H,Ono K,Shimizu T,Ebana K,Hayashi N,Takahashi A,Hirochika H,Okuno K,Yano M.2009.Loss of function of a proline-containing protein confers durable disease resistance in rice[J].Science,325(5943):998-1001.
Hayashi K,Yasuda N,Fujita Y,Koizumi S,Yoshida H.2010a.Identification of the blast resistance gene Pit in rice cultivars using functional markers[J].Theoretical and Applied Genetics,121(7):1357-1367.
Hayashi N,Inoue H,Kato T,Funao T,Shirota M,Shimizu T,Kanamori H,Yamane H,Saito Y H,Matsumoto T,Yano M,Takatsuji H.2010b.Durable panicle blast-resistance gene Pb1 encodes an atypical CC-NBS-LRR protein and was generated by acquiring a promoter through local genome duplication[J].The Plant Journal,64(3):498-510.
Hittalmani S,Parco A,Mew T V,Zeigler R S,Huang N.2000.Fine mapping and DNA marker-assisted pyramiding of the three major genes for blast resistance in rice[J].Theoretical and Applied Genetics,100(7),1121-1128.
Hua L X,Wu J Z,Chen C X,Wu W H,He X Y,Lin F,Wang L,Ashikawa I,Matsumoto T,Wang L,Pan Q H.2012.The isolation of Pi1,an allele at the Pik locus which confers broad spectrum resistance to rice blast[J].Theoretical and Applied Genetics,125(5):1047-1055.
Jeon J S,Chen D,Yi G H,Wang G L,Ronald P C.2003.Genetic and physical mapping of Pi5(t),a locus associated with broad-spectrum resistance to rice blast[J].Molecular Genetics and Genomics,269(2):280-289.
Jia Y,Wang Z,Singh P.2002.Development of dominant rice blast Pi-ta resistance gene markers[J].Crop Science,42(6):2145-2149.
Khush G S,Jena K K.2009.Current status and future prospects for research on blast resistance in rice(Oryza sative L.)[J].Advances in Genetics,Genomics and Control of Rice Blast Disease.doi:10.1007/978-1-4020-9500-9_1.
Koide Y,Kobayashi N,Xu D,Fukuta Y.2009.Resistance genes and selection DNA markers for blast disease in rice(Oryza sativa L.)[J].Japan Agricultural Research Quarterly,43(4):255-280.
Lin F,Chen S,Que Z,Wang L,Liu X,Pan Q.2007.The blast resistance gene Pi37 encodes a nucleotide binding site-leucine-rich repeat protein and is a member of a resistance gene cluster on rice chromosome 1[J].Genetics,177(3):1871-1880.
Liu Y,Liu B,Zhu X,Yang J,Bordeos A,Wang G,Leach J E,Leung H,Liu Y.2013.Fine-mapping and molecular marker development for Pi56(t),a NBS-LRR gene conferring broad-spectrum resistance to Magnaporthe oryzae in rice[J].Theoretical and Applied Genetics,126(4):985-998.
Mackill D J,Bonman J M.1992.Inheritance of blast resistance in near-isogenic lines of rice[J].Phytopathology,82(7):746-749.
Miah G,Rafii M Y,Ismail M R,Peteh A B,Rahim H A,Aafaliza R,Latif M A.2013.Blast resistance in rice:a review of conventional breeding to molecular approaches[J].Molecular Biology Reports,40(3):2369-2388.
Okuyama Y,Kanzaki H,Abe A,Yoshida K,Tamiru M,Saitoh H,Fujibe T,Matsumura H,Shenton M,Galam D C,Undan J,Ito A,Sone T,Terauchi R.2011.A multifaceted genomics approach allows the isolation of the rice Pia-blast resistance gene consisting of two adjacent NBS-LRR protein genes[J].The Plant Journal,66(3):467-479.
Qu S,Liu G,Zhou B,Bellizzi M,Zeng L,Dai L,Han B,Wang G L.2006.The broad-spectrum blast resistance gene Pi9 encodes a nucleotide-binding site-leucine-rich repeat protein and is a member of a multi-gene family in rice[J].Genetics,172(3):1901-1914.
Ramkumar G,Srinivasarao K,Mohan K M,Sudarshan I,Sivaranjani A K P,Gopalakrishna K,Neeraja C N,Balachandran S M,Sundaram R M,Prasad M S,Rani NS,Rama Prasad A M,Viraktamath B C,Madhav M S,Ramkumar G.2011.Development and validation of functional marker targeting an InDel in the major rice blast disease resistance gene Pi54(Pikh)[J].Molecular Breeding,27(1):129-135.
Shang J,Tao Y,Chen X,Zou Y,Lei C,Wang J,Li X,Zhao X,Zhang M,Lu Z,Xu J,Cheng Z,Wan J,Zhu L.2009.Identification of a new rice blast resistance gene,Pid3,by genomewide comparison of paired nucleotide-binding site-leucine-rich repeat genes and their pseudogene alleles between the two sequenced rice genomes[J].Genetics,182(4):1303-1311.
Skamnioti P,Gurr S J,2009,Against the grain:safeguarding rice from rice blast disease[J].Trends in Biotechnology,27(3):141-150.
Takahashi A,Hayashi N,Miyao A,Hirochika H.2010.Unique features of the rice blast resistance Pish locus revealed by large scale retrotransposon-tagging[J].BMC Plant Biology,10:175.
Wang Z X,Yano M,Yamanouchi U,Iwamoto M,Monna L,Hayasaka H,Katayose Y,Sasaki T.1999.The Pib gene for rice blast resistance belongs to the nucleotide binding and leucine-rich repeat class of plant disease resistance genes[J].The Plant Journal,19(1):55-64.
Xu X,Hayashi N,Wang C T,Fukuoka S,Kawasaki S,Takatsuji H,Jiang C J.2014.Rice blast resistance gene Pikahei-1(t),a member of a resistance gene cluster on chromosome 4,encodes a nucleotide-binding site and leucinerich repeat protein[J].Molecular Breeding,34(2):691-700.
Yuan B,Zhai C,Wang W J,Zeng X S,Xu X K,Hu H Q,Lin F,Wang L,Pan Q H.2011.The Pik-p resistance to Magnaporthe oryzae in rice is mediated by a pair of closely linked CC-NBS-LRR genes[J].Theoretical and Applied Genetics,122(5):1017-1028.
Zhai C,Lin F,Dong Z Q,He X Y,Yuan B,Zeng X S,Wang L,Pan Q H.2011.The isolation and characterization of Pik,a rice blast resistance gene which emerged after rice domestication[J].New Phytologist,189(1):321-334.
Zhou B,Qu S,Liu G F,Dolan M,Sakai H,Lu G D,Bellizzi M,Wang G L.2006.The eight amino-acid differences within three leucine-rich repeats between Pi2 and Piz-t resistance proteins determine the resistance specificity to Magnaporthe grisea[J].Molecular Plant Microbe Interactions,19(11):1216-1228.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |