CAJ | 학술논문

为研究5个水稻品种对美国稻瘟病小种IB-1、IE-1k和IG-1的抗性遗传,于2008-2009年在美国阿肯色大学潘布拉夫分校和水稻研究推广中心,用中国水稻品种特青和4个美国水稻品种Katy、Mars、LaGrue和Newbonnet组成完全双列杂交.一代、杂交二代和亲本在温室,用美国稻瘟病(Magna porthegrisea)3个主要菌原小种IB-1、IE 1k和IG-1进行接种鉴定,进行完全双列杂交遗传分析研究.结果表明:特青抗所有的小种；Katy抗IB-1和IG-1,但感IE-1k; Mars抗IE-1k和IG-1,但感IB 1；LaGrue感所有小种；Newbonnet抗IG-1,但感IB-1和IE-1k.抗病品种特青与感病品种Newbonnet对小种IB-1,抗病品种特青与抗病品种Mars对IE-1k,抗病品种特青与抗病品种Katy,抗病品种特青与抗病品种Newbonnet对IG-1,其正反交二代抗病植株与感病植株的比例为63:1,说明,这些抗病品种对相应的IB-1、IE-1k和IG-1分别存在3对独立遗传的显性抗病基因,出现重叠作用的遗传关系.抗病品种特青与抗病品种Katy,抗病品种特青与感病品种LaGrue,抗病品种Katy与感病品种Newbonnet对IB-1,抗病品种特青与感病品种Mars 和感病品种Lagure,抗病品种Katy与感病品种Mars和感病品种Lagure对IG-1,其正反交杂交二代抗病植株与感病植株的分离比例符合15:1的比例,说明,这些抗病品种对相应稻瘟病小种存在两对独立遗传的显性抗性基因,出现重叠作用的遗传关系.抗病品种Mars与感病品种Katy、感病品种Lagure和感病品种Newbonnet对IE-1k,其杂交一代表现感病,正反交杂交二代抗病植株和感病植株的分离符合7抗:9感的比例,说明,品种Mars存在两对隐性抗病基因,感病品种Katy、Lagure和Newbonnet与抗病品种Mars的后代出现两对显性感病基因互补作用的遗传关系.抗病品种特青与感病品种Mars,抗病品种Katy与感病品种Mars及LaGrue对IB-1,抗病品种特青与感病品种Katy、LaGrue和Newbonnet对IE-1k,抗病品种Katy、Mars和Newbonnet与感病品种LaGrue对IG-1,其正反交二代的抗病植株与感病植株的比例为3:1,说明,这些品种对IB-1、IE-1k和IG-1的抗性分别存在1对显隐性基因遗传关系.感病品种Mars、La-Grue、Newbonnet对IB-1和感病品种Katy、LaGrue、Newbonnet对IE-1k,其正反交二代全为感病植株,说明,这些感病品种分别对IB-1、IE-1k的感病基因是等位的. 為研究5箇水稻品種對美國稻瘟病小種IB-1、IE-1k和IG-1的抗性遺傳,于2008-2009年在美國阿肯色大學潘佈拉伕分校和水稻研究推廣中心,用中國水稻品種特青和4箇美國水稻品種Katy、Mars、LaGrue和Newbonnet組成完全雙列雜交.一代、雜交二代和親本在溫室,用美國稻瘟病(Magna porthegrisea)3箇主要菌原小種IB-1、IE 1k和IG-1進行接種鑒定,進行完全雙列雜交遺傳分析研究.結果錶明:特青抗所有的小種；Katy抗IB-1和IG-1,但感IE-1k; Mars抗IE-1k和IG-1,但感IB 1；LaGrue感所有小種；Newbonnet抗IG-1,但感IB-1和IE-1k.抗病品種特青與感病品種Newbonnet對小種IB-1,抗病品種特青與抗病品種Mars對IE-1k,抗病品種特青與抗病品種Katy,抗病品種特青與抗病品種Newbonnet對IG-1,其正反交二代抗病植株與感病植株的比例為63:1,說明,這些抗病品種對相應的IB-1、IE-1k和IG-1分彆存在3對獨立遺傳的顯性抗病基因,齣現重疊作用的遺傳關繫.抗病品種特青與抗病品種Katy,抗病品種特青與感病品種LaGrue,抗病品種Katy與感病品種Newbonnet對IB-1,抗病品種特青與感病品種Mars 和感病品種Lagure,抗病品種Katy與感病品種Mars和感病品種Lagure對IG-1,其正反交雜交二代抗病植株與感病植株的分離比例符閤15:1的比例,說明,這些抗病品種對相應稻瘟病小種存在兩對獨立遺傳的顯性抗性基因,齣現重疊作用的遺傳關繫.抗病品種Mars與感病品種Katy、感病品種Lagure和感病品種Newbonnet對IE-1k,其雜交一代錶現感病,正反交雜交二代抗病植株和感病植株的分離符閤7抗:9感的比例,說明,品種Mars存在兩對隱性抗病基因,感病品種Katy、Lagure和Newbonnet與抗病品種Mars的後代齣現兩對顯性感病基因互補作用的遺傳關繫.抗病品種特青與感病品種Mars,抗病品種Katy與感病品種Mars及LaGrue對IB-1,抗病品種特青與感病品種Katy、LaGrue和Newbonnet對IE-1k,抗病品種Katy、Mars和Newbonnet與感病品種LaGrue對IG-1,其正反交二代的抗病植株與感病植株的比例為3:1,說明,這些品種對IB-1、IE-1k和IG-1的抗性分彆存在1對顯隱性基因遺傳關繫.感病品種Mars、La-Grue、Newbonnet對IB-1和感病品種Katy、LaGrue、Newbonnet對IE-1k,其正反交二代全為感病植株,說明,這些感病品種分彆對IB-1、IE-1k的感病基因是等位的.
위연구5개수도품충대미국도온병소충IB-1、IE-1k화IG-1적항성유전,우2008-2009년재미국아긍색대학반포랍부분교화수도연구추엄중심,용중국수도품충특청화4개미국수도품충Katy、Mars、LaGrue화Newbonnet조성완전쌍렬잡교.일대、잡교이대화친본재온실,용미국도온병(Magna porthegrisea)3개주요균원소충IB-1、IE 1k화IG-1진행접충감정,진행완전쌍렬잡교유전분석연구.결과표명:특청항소유적소충；Katy항IB-1화IG-1,단감IE-1k; Mars항IE-1k화IG-1,단감IB 1；LaGrue감소유소충；Newbonnet항IG-1,단감IB-1화IE-1k.항병품충특청여감병품충Newbonnet대소충IB-1,항병품충특청여항병품충Mars대IE-1k,항병품충특청여항병품충Katy,항병품충특청여항병품충Newbonnet대IG-1,기정반교이대항병식주여감병식주적비례위63:1,설명,저사항병품충대상응적IB-1、IE-1k화IG-1분별존재3대독립유전적현성항병기인,출현중첩작용적유전관계.항병품충특청여항병품충Katy,항병품충특청여감병품충LaGrue,항병품충Katy여감병품충Newbonnet대IB-1,항병품충특청여감병품충Mars 화감병품충Lagure,항병품충Katy여감병품충Mars화감병품충Lagure대IG-1,기정반교잡교이대항병식 주여감병식주적분리비례부합15:1적비례,설명,저사항병품충대상응도온병소충존재량대독립유전적현 성항성기인,출현중첩작용적유전관계.항병품충Mars여감병품충Katy、감병품충Lagure화감병품충Newbonnet대IE-1k,기잡교일대표현감병,정반교잡교이대항병식주화감병식주적분리부합7항:9감적비례,설명,품충Mars존재량대은성항병기인,감병품충Katy、Lagure화Newbonnet여항병품충Mars적후대출현량대현성감병기인호보작용적유전관계.항병품충특청여감병품충Mars,항병품충Katy여감병품충Mars급LaGrue대IB-1,항병품충특청여감병품충Katy、LaGrue화Newbonnet대IE-1k,항병품충Katy、Mars화Newbonnet여감병품충LaGrue대IG-1,기정반교이대적항병식주여감병식주적비례위3:1,설명,저사품충대IB-1、IE-1k화IG-1적항성분별존재1대현은성기인유전관계.감병품충Mars、La-Grue、Newbonnet대IB-1화감병품충Katy、LaGrue、Newbonnet대IE-1k,기정반교이대전위감병식주,설명,저사감병품충분별대IB-1、IE-1k적감병기인시등위적.
In order to research the inheritance of rice blast (Magnaporthe grisea) resistance of five cultivars to three major races of IB-1,IE-1k and IG-1,four American cultivars,Katy,Mars,LaGrue,and Newbonnet,and one Chinese cultivar,Teging in a complete diallel design was conducted in University of Arkansas at Pine Bluff,USA in 2008 and 2009.The parents,F1 and F2 were inoculated with these three races separately to test blast responses in the greenhouse of Rice Research Center in Stuttgart,Arkansas,USA in 2008 and 2009.Results:Teqing was resistant to all the three races.Katy was resistant to IB-1 and IG-1,but not to IE-1k. Mars was resistant to IE-1k,but susceptible to the other two. LaGrue was susceptible to all the three races.Newbonnet was susceptible to IB-1 and IE-1k,but resistant to IG-1.Experimental data showed six types of segregation ratio in the F2 progenies of the complete diallel crosses:1) 63 R:1 S indicated three dominant genes independently responsible for blast resistance; 2) 15 R:1 S suggested two dominant genes independently responsible for blast resistance; 3) 7 R:9 S suggested two genes working dominantly and complementarily resulting in blast susceptibility; 4) 3 R:1 S fitted in the single dominant gene model controlling blast resistance; 5) 1 R:0 S indicated allelic genes in two resistant parents; 6) 0 R:1 S indicated allelic genes in two susceptible parents.In most cases,resistant gene(s) was dominant over susceptible regardless of parents and blast races with only one exception.Susceptible F1 derived from resistant Mars with susceptible Katy,LaGrue and Newbonnet,respectively,indicated that the resistant gene(s) to race IE-1k in Mars was recessive.The recessive resistant gene model was verified by the segregation ratio of 7 R:9 S in all F2 progenies from those F1 hybrids. Further more,this segregation ratio suggested that the two genes were complementarily involved. No differences of blast segregation between reciprocal crosses from any cultivars to any blast race were observed. Therefore,cytoplasm was not involved in the inheritance of blast in rice.