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1.
82 份水稻种质资源的稻瘟病抗性评价与抗性基因鉴定 总被引:2,自引:0,他引:2
为了合理利用水稻抗稻瘟病种质资源,通过稻瘟病菌株接种鉴定并结合9个主效抗性基因的特异性分子标记检测,分析了82份地方稻种资源的稻瘟病抗性水平和携带的抗性基因.结果表明:在82份水稻材料中,宽抗谱和中等抗谱的材料分别有11份(13.4%)和55份(67.1%).携带Pia、Pita-2/Pita、Pita、Piz、Piz-t和Pik-h基因的材料分别占78.0%、76.8%、54.9%、50.0%、39.0%和35.4%;各有3个材料携带Pik基因和Pib基因,未发现携带Pik-m基因的材料.大部分供试材料含有2~5个抗性基因,随着抗性基因数量的增加,供试材料的抗病性呈上升趋势. 相似文献
2.
利用来自日本、国际水稻研究所(IRRI)和中国的10个稻瘟病菌单基因鉴别品种,将59个湖南稻瘟病菌株分别划分为20个生理小种,优势小种为H531.1、H511.1和H501.1,对抗性基因Pi–CO39、Pita、Pi3、Pi12、Pia具有致病性。各个稻区生理小种组成和优势小种存在差异,其中,湘东、湘中稻区稻瘟病菌生理小种多样性指数较高,优势小种的变化最为明显,说明这2个稻区的抗源基因正逐渐变得匮乏,甚至丧失。鉴别品种C101LAC(Pi1)和C101A51(Pi2)对59个湖南稻瘟病菌菌株抗性频率均为100.0%,说明这些抗性品种(基因)可作为湖南稻区稻瘟病的抗源材料(基因),Pi1、Pi2可直接作为分子标记辅助选择育种的供体抗源基因。品种关东51(Pik)、C105TTP–4L23(Pi4–b)和C101PKT(Pita)在湖南各稻区的抗性水平表现存在差异,可以作为选择性抗源材料(基因)加以应用。 相似文献
3.
黑龙江省种植品种中稻瘟病抗性基因Pib和Pita的分布 总被引:1,自引:0,他引:1
利用源于Pib Pita基因本身的特异性分子标记,检测了2009年黑龙江省种植面积0.67万hm2以上的36份水稻品种的Pita和Pib抗性基因型.结果表明,垦稻13、垦稻14、龙粳22、松粳9等4份材料含有Pib基因,而不含有Pita;东428、龙稻5、龙粳18、龙粳28、绥粳4、绥粳9等6份材料含有Pita基因,而... 相似文献
4.
【目的】分析云南省地方籼稻和粳稻的稻瘟病抗性和农艺性状差异,筛选适宜于种植区环境的优异地方稻种,为稻瘟病的抗性育种及良种选育提供理论依据。【方法】以云南地方籼稻和粳稻品种各23份为材料,利用8个稻瘟病菌株进行室内苗期稻瘟病抗性鉴定及抗瘟基因推导,并结合田间农艺性状测定结果进行综合评价,筛选出优异地方稻种。【结果】抗性频率为0.0%~25.0%、25.1%~50.0%、50.1%~75.0%和75.1%~100.0%的粳稻品种分别有4、5、6和8个,籼稻品种分别有0、4、7和12个。粳稻和籼稻接种8个稻瘟病标准菌株后,籼稻的稻瘟病抗性整体高于粳稻。46个水稻品种的抗瘟基因组成较复杂,其中,能推导出抗瘟基因的品种共17个,其中粳稻品种7个,籼稻品种10个;抗性基因组成复杂的品种(可能含有的抗瘟基因在6个或6个以上)有23份;含有未知抗瘟基因的品种有6个,均为粳稻;Pik、Piz-t、Pib、Pi1、Pi11和Pita-2基因在籼稻中出现的次数高于粳稻,其中Pita-2基因仅存在于籼稻品种吉强糯和天杂58中;Pik-s、Pita、Pi3、Pi12和Pii基因在粳稻中出现的次数高于籼稻,其中Pi12基因仅存在于粳稻品种日本谷和华街中。农艺性状调查测定结果显示,在株高、穂长、结实率和千粒重方面,粳稻品种间的差异明显大于籼稻品种;在产量方面,籼稻品种间的差异小于粳稻品种。筛选出的高抗稻瘟病品种:镰刀谷(粳稻)、香糯(籼稻)、毫糯早(籼稻)和老品种糯谷(籼稻);高产品种:日本谷(粳稻)和粘珏香(籼稻);矮杆品种:冷水汕优(粳稻)和白壳糯(籼稻);多穗品种:日本谷(粳稻)和老品种糯谷(籼稻)。【结论】籼稻所含的抗瘟基因数量和稻瘟病抗性整体较粳稻高,说明籼稻的抗谱范围更广。筛选出的粳稻品种冷水汕优和日本谷可用于优质高产品种选育,籼稻品种香糯和毫糯早可用于稻瘟病抗性品种选育。 相似文献
5.
云南省稻瘟病菌群体对稻瘟病抗性单基因系的致病性分析 总被引:2,自引:0,他引:2
稻瘟病是水稻生产最具毁灭性的病害之一,抗病品种的利用是控制该病最经济、有效和环保的措施。明确稻瘟病抗性基因的抗性水平,可有效指导抗病育种的开展。本研究利用24个以丽江新团黑谷为背景的稻瘟病抗性单基因系,对2007年至2010年采集自云南籼稻和粳稻区共379个稻瘟病菌株进行了致病性测定。结果表明,Pi9和Pi5可在籼稻和粳稻区使用;Pik-h、Pita-2、Piz-5、Pita和Piz基因只能在籼稻区使用;Piz-t和Pi20基因仅能在粳稻区使用。对2个基因的联合致病性系数、联合毒性系数和抗性互补系数分析表明,Pik/Pi7、Piz/Pi9和Pi1/Pikm等3对基因的组合可作为籼稻区的有效抗源组合;而Pi1/Pik-h、Pi5/Pi9和Pi9/Pi20等3对基因的组合可作为粳稻区的有效抗源组合。群体致病性分析表明,绝大部分的抗性基因在云南已经失效,需发掘新的抗源用于抗病育种。 相似文献
6.
Pik位点包含Pi-k、Pi-km、Pi-kp、Pi1、Pi-kh等抗稻瘟病等位基因,在我国水稻抗病育种中具有重要应用价值。本研究对229份水稻品种及重要育种材料的Pik位点进行基因型鉴定。利用K/N-单元型分子标记对水稻材料Pik位点进行多态性分析,鉴定了80份材料为K1K2功能性基因型。进一步通过Pi-k、Pi-kp和Pi1功能分子标记检测,结合功能多态位点序列分析,从80份K1K2型材料中,鉴定了黑稻、京虎B为Pi-k基因型;软米谷为Pi-kp基因型;恩恢99-64为Pi1基因型。研究还发现,高配合力强优恢复系闽恢3301的Pik位点为功能性K1K2基因型,其K1K2片段的序列与已克隆Pi-k、Pi-km、Pi-kp、Pi1、Pi-kh等位基因的序列存在差异,表明闽恢3301的Pik位点可能存在一个新等位基因。本研究明确了229份水稻材料Pik位点的K/N-基因型,结果可为水稻抗稻瘟病育种和品种合理布局提供参考。 相似文献
7.
Two novel gene-specific markers at the Pik locus facilitate the application of rice blast resistant alleles in breeding 
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下载免费PDF全文 Da-gang TIAN Zi-qiang CHEN Yan LIN Zai-jie CHEN Jia-mi LUO Ping-sheng JI Li-ming YANG Zong-hua WANG Feng WANG 《农业科学学报》2021,20(6):1554-1562
Blast, a disease caused by Magnaporthe oryzae, is a major constraint for rice production worldwide. Introgression of durable blast resistance genes into high-yielding rice cultivars has been considered a priority to control the disease. The blast resistance Pik locus, located on chromosome 11, contains at least six important resistance genes, but these genes have not been widely employed in resistance breeding since existing markers hardly satisfy current breeding needs due to their limited scope of application. In this study, two PCR-based markers, Pikp-Del and Pi1-In, were developed to target the specific In Del(insertion/deletion) of the Pik-p and Pi-1 genes, respectively. The two markers precisely distinguished Pik-p, Pi-1, and the K-type alleles at the Pik locus, which is a necessary element for functional genes from rice varieties. Results also revealed that only several old varieties contain the two genes, of which nearly half carry the K-type alleles. Therefore, these identified varieties can serve as new gene sources for developing blast resistant rice. The two newly developed markers will be highly useful for the use of Pik-p, Pi-1 and other resistance genes at the Pik locus in markerassisted selection(MAS) breeding programs. 相似文献
8.
【目的】探究长江中下游区试水稻品种稻瘟病抗性水平及抗性基因聚合对稻瘟病抗性的效应,为新品种的审定及抗病品种的合理利用提供理论依据。【方法】采用人工喷雾接种方法鉴定2018—2020年长江中下游区试252个水稻品种的稻瘟病抗性,并利用2组多重PCR体系(Pi1与Pikh、Pi9与Pik)检测供试水稻品种携带抗性基因Pi9、Pik、Pi1和Pikh的情况,分析抗性基因聚合方式与稻瘟病抗病率的关系。【结果】2018—2020年供试材料的穗瘟抗病率分别为47.0%、38.3%和35.2%,穗瘟抗病率逐年下降。252份供试材料含有抗性基因数为0~4个,其中含0个抗性基因的材料有14份,占5.6%,穗瘟抗病率为14.3%;含1个抗性基因的材料有63份,占25.0%,穗瘟抗病率为11.1%;含2个抗性基因的材料有81份,占32.1%,穗瘟抗病率为42.0%;含3个抗性基因的材料有81份,占32.1%,穗瘟抗病率为65.4%;含4个抗性基因的材料有13份,占5.2%,穗瘟抗病率为53.8%。总体来看,供试材料的穗瘟抗病率随携带的抗性基因数增加呈上升趋势。抗性基因组合Pi9+Pikh、Pi9+Pik+Pikh和Pi9+Pik+Pi1+Pikh是适合安徽地区的抗性基因组合。【结论】2018—2020年长江中下游区试水稻品种稻瘟病抗性一般。多基因聚合能提高水稻品种的稻瘟病抗性,但应选择合适的抗性基因组合,不能简单叠加。 相似文献
9.
采用苗期喷雾接种和孕穗期注射接种法,鉴定江苏省49个水稻主导品种的稻瘟病抗性,利用14个抗性基因相关分子标记进行基因型鉴定和遗传多样性分析。结果表明:江苏省水稻主导品种中,未鉴定出高抗苗叶瘟和穗颈瘟的品种,抗、中抗、中感、感和高感苗叶瘟的品种分别有5、7、14、12和11个,抗、中抗、中感、感和高感穗颈瘟的品种分别有2、8、6、9和24个;仅有4个品种对苗叶瘟和穗颈温的抗性均达到中抗及以上水平,占8.2%。14对引物共检测出35个等位变异,多态性信息含量变幅为0.000 0~0.537 5,平均为0.339 8;不同品种出现抗性基因的标记为2~8个,39个品种出现5个以上抗性基因标记(占79.6%)。聚类结果显示,49个品种被聚为3个大类,品种间的相似距离变幅为0.000 0~0.857 1,平均为0.403 9,聚类较为分散,表明种质资源交流频繁,有利基因的共享率较高。 相似文献
10.
辽宁省稻瘟病菌无毒基因型鉴定及分析 总被引:1,自引:2,他引:1
【目的】鉴定稻瘟病菌(Magnaporthe oryzae)的无毒基因型,了解无毒基因在不同地区流行菌株中的分布情况,为品种布局提供参考。【方法】根据已经克隆且与稻瘟病菌致病性相关的6个无毒基因序列设计引物,选取辽宁省稻瘟病常发区的26株稻瘟病菌单孢菌株,提取各菌株DNA样本作为模板,进行PCR扩增。通过琼脂糖凝胶电泳及PCR产物测序,对6个无毒基因PCR产物进行碱基和氨基酸序列的分析比较。对琼脂糖凝胶电泳未出条带的,设计不同引物进行验证性试验。【结果】在PCR产物电泳检测中,Avr1-CO39、Avr-pia和Avr-pii没有产物条带,对这3个无毒基因设计验证引物,其PCR产物电泳检测仍没有条带出现,其结果证明辽宁省各水稻主产区流行稻瘟病菌中多不携带Avr1-CO39、Avr-pia和Avr-pii;对于其他3个无毒基因 AvrPiz-t、Avr-pik和Avr-pita则有特异性扩增产物,说明这3个无毒基因在各稻区稻瘟病菌中以不同突变类型及不同频率出现。其中,与Pi2、Pi9和Piz-t对应的AvrPiz-t,分别在22个菌株的中被检测到,且有21个菌株的序列与其序列一致,说明该基因遗传相对稳定,也间接证明携带Pi2、Pi9和Piz-t 的水稻品种在辽宁地区的广谱抗性;与基因组序列不同的16号菌株,在DNA序列192 bp处发生一个单碱基C的缺失,从而导致移码突变,且碱基突变导致氨基酸序列至72位氨基酸时提前终止,而使该基因编码的蛋白质失去无毒基因的功能。与Pik、Pik-p、Pik-m和pik-s对应的Avr-pik,电泳检测结果表明各菌株均有特异性条带出现,经测序验证等位基因序列分为4种类型(B、D、F、G),其中12个菌株携带可为Pik或其等位基因Pik-m和pik-p所识别的D类型;9个菌株携带B类型,该等位基因曾被报道,但是否具有无毒基因的功能仍未验证;另有2个菌株携带F类型等位基因,该基因为首次发现,并分别出现在丹东和盘锦地区。其特点在于与D类型基因间存在143(A/G)的碱基差异,氨基酸序列翻译结果显示其为错义突变,即48(G/D);而其余3个菌株携带G类型等位基因,该基因亦属首次发现,且仅出现在抚顺新宾地区,碱基序列与D类型存在168(G/A)的差异,导致翻译提前终止,基因功能丧失。对于Avr-pita,26个菌株特异性扩增产物一致,但测序检测到5种等位基因类型,且均与Avr-pita有差异,碱基序列的变化多导致错义突变。这5种等位基因的氨基酸序列之间差异由3个氨基酸位点的差异所致,分别为83(D/N)、192(Y/C)和207(K/R),3处突变均在基因结构域范围内,几种等位基因均已见报道。【结论】辽宁稻区流行稻瘟病菌中Avr-pik、AvrPiz-t和Avr-pita分布较为广泛,选育及推广携带相应抗病基因的水稻品种可减轻稻瘟病的危害。 相似文献
11.
[目的]对吉林省主推水稻品种的抗稻瘟病基因进行分子检测.[方法]利用10个与抗稻瘟病基因的紧密连锁分子标记,对24份吉林省水稻品种资源的抗病基因进行分子鉴定.[结果]24份主推品种中普遍缺乏Pib、Pi1、Pikh、Pia等4个抗瘟基因;24份主推品种中有17份不合Pi9基因,特别是吉林省种植面积最大的2个水稻品种“吉粳88”和“长白九”中未发现Pi9基因;“吉粳88”含Pita、Pikm、Pi2、Pi-d2和Piz等5个抗瘟基因.[结论]Pib、Pi1、Pikh、Pia、Pi9是今后改良吉林省主推水稻品种稻瘟病抗性的主要抗病基因. 相似文献
12.
《农业科学学报》2016,(10)
Utilization of R(resistance) genes to develop resistant cultivars is an effective strategy to combat against rice blast disease. In this study, R genes Pi46 and Pita in a resistant accession H4 were introgressed into an elite restorer line Hang-Hui-179(HH179) using the marker-assisted backcross breeding(MABB) procedure. As a result, three improved lines(e.g., R1791 carrying Pi46 alone, R1792 carrying Pita alone and R1793 carrying both Pi46 and Pita) were developed. The three improved lines had significant genetic similarities with the recurrent parent HH179. Thus, they and HH179 could be recognized as near isogenic lines(NILs). The resistance spectrum of the three improved lines, which was tested at seedling stage, reached 91.1, 64.7 and 97.1%, respectively. This was markedly broader than that of HH179(23.5%). Interestingly, R1793 showed resistance to panicle blast but neither R1791 nor R1792 exhibited resistance at two natural blast nurseries. The results implied that the stacking of Pi46 and Pita resulted in enhanced resistance, which was unachievable by either R gene alone. Further comparison indicated that the three improved lines were similar to HH179 in multiple agronomic traits; including plant height, tillers per plant, panicle length, spikelet fertility, and 1 000-grain weight. Thus, the three improved lines with different R genes can be used as new sources of resistance for developing variety. There is a complementary effect between the two R genes Pi46 and Pita. 相似文献
13.
Abundant genetic diversity and rational population structure of germplasm benefit crop breeding greatly.To investigate genetic variation among geographically diverse set of japonica germplasm,we analyzed 233 japonica rice cultivars collected from Liaoning,Jilin and Heilongjiang provinces of China,which were released from 1970 to 2011 by using 62 simple sequence repeat(SSR) markers and 8 functional gene tags related to yield.A total of 195 alleles(N_a) were detected with an average of 3.61 per locus,indicating a low level of genetic diversity level among all individuals.The genetic diversity of the cultivars from Jilin Province was the highest among the three geographic distribution zones.Moreover,the genetic diversity was increased slightly with the released period of cultivars from 1970 to 2011.The analysis of molecular variance(AMOVA) revealed that genetic differentiation was more diverse within the populations than that among the populations.The neighbor-joining(NJ) tree indicated that cultivar clusters based on geographic distribution represented three independent groups,among which the cluster of cultivars from Heilongjiang is distinctly different to the cluster of cultivars from Liaoning.For the examined functional genes,two or three allelic variations for each were detected,except for IPA1 and GW2,and most of elite genes had been introgressed in modem japonica rice varieties.These results provide a valuable evaluation for genetic backgrounds of current japonica rice and will be used directly for japonica rice breeding in future. 相似文献
14.
544份水稻种质稻瘟病抗性鉴定及抗性基因的分布研究 总被引:3,自引:0,他引:3
采用苗期喷雾接种鉴定方法并结合10个主效抗性基因的特异性分子标记检测,分析544份水稻种质资源的稻瘟病抗性水平及其携带的抗性基因分布情况。结果表明:稻瘟病抗性水平达高抗、抗、中抗、中感、感及高感的材料分别为25、50、78、152、156和83份;10个分子标记对应的抗病基因在供试材料中均被检测到,含有2和3个抗性基因的材料分别为4和17份(占0.7%和3.1%),476份材料含有4~6个抗性基因(占87.5%),47份材料含有7个抗性基因(占8.6%);品种抗病反应与其抗病基因种类密切相关,Pi5、Pita、Pi9、Pib等4个基因对6个强致病鉴定小种抗性表现较好。隆粳968、秀水134、嘉58、津稻263、淮稻20号、盐稻10号、谷梅4号等品种含有多个主效抗病基因,连续多年达到高抗水平。利用分子标记辅助选择将不同来源的主效抗病基因聚合到同一品种中,是控制该病害最经济有效的途径。 相似文献
15.
《农业科学学报》2016,(7)
Rice blast, bacterial blight(BB) and brown planthopper(BPH) are the three main pests of rice. This study investigated pyramiding genes resistant to blast, BB and BPH to develop restorer lines. Ten new lines with blast, BB and/or BPH resistance genes were developed using marker-assisted selection(MAS) technique and agronomic trait selection(ATS) method. Only HR13 with resistance genes to blast, BB and BPH was obtained. In addition to blast and BB resistance, four lines(HR39, HR41, HR42, HR43) demonstrated moderate resistance to BPH, but MAS for BPH resistance genes were not conducted in developing these four lines. These data suggested that there were unknown elite BPH resistance genes in the Zhongzu 14 donor parent. A more effective defense was demonstrated in the lines with Pi1 and Pi2 genes although the weather in 2012 was favorable to disease incidence. Blast resistance of the lines with a single resistance gene, Pita, was easily influenced by the weather. Overall, the information obtained through pyramiding multiple resistance genes on developing the restorer lines is helpful for rice resistance breeding. 相似文献
16.
Yulin Jia Guangjie Liu Stefano Costanzo Seonghee Lee Yuntao Dai 《Frontiers of Agriculture in China》2009,3(3):231-239
Analysis of genetic interactions between rice and its pathogenic fungi Magnaporthe oryzae and Rhizoctonia solani should lead to a better understanding of molecular mechanisms of host resistance, and the improvement of strategies to manage
rice blast and sheath blight diseases. Currently, dozens of rice resistance (R) genes against specific races of the blast fungus have been described. Among them, ten were molecularly characterized and
some were widely used for breeding for genetic resistance. The Pi-ta gene was one of the best characterized rice R genes. Following the elucidation of its molecular structure, interaction, distribution, and evolution, user friendly DNA
markers were developed from portions of the cloned genes to facilitate the incorporations of the Pi-ta mediated resistance into improved rice varieties using marker assisted selection (MAS). However, rice blast is still a major
threat for stable rice production because of race change mutations occurring in rice fields, which often overcome added resistance
based on single R genes, and these virulent races of M. oryzae pose a continued challenge for blast control. For sheath blight, progress has been made on the exploration of novel sources
of resistance from wild rice relatives and indica rice cultivars. A major quantitative trait locus (QTL), named qSB9-2, was recently verified in several mapping populations with different phenotyping methods, including greenhouse methods. The
ability to identify qSB9-2 using greenhouse methods should accelerate the efforts on the qSB9-2 fine mapping and positional cloning. 相似文献
17.
五个抗稻瘟病基因在浙江省水稻品种中的分布和抗性评价 总被引:1,自引:0,他引:1
为了明确浙江省部分水稻主栽品种和中国稻瘟菌生理小种鉴别品种中稻瘟病抗性基因分布情况,本研究采用5个基于稻瘟病抗感等位基因序列设计的功能性分子标记,对40份浙江省水稻主栽品种和6份稻瘟菌鉴别品种中Pit、Pib、Pii/Pi3/Pi5、Pia、Pi1等5个稻瘟病抗性基因进行了分子检测。结果发现,这5个抗性基因在浙江省栽培品种中分布频率不同,其中Pib基因分布最广,占63.04%;其次是Pia,占58.70%;携带Pii/Pi3/Pi5和Pit抗性基因的材料较少,分别为21.74%和10.87%。同时用2015—2017年田间采集到的141个稻瘟菌菌株检测46个水稻品种苗瘟抗性水平,结果显示,其中仅15个品种的抗性频率在70%以上,大部分品种携带其中1~2个抗性基因。聚合了多个抗性基因的品种抗性水平相对较高。 相似文献
18.
超级稻宜优673遗传构成与籼粳属性分析 总被引:1,自引:0,他引:1
【目的】研究超级稻宜优673的遗传构成和籼粳属性,为其所携带有利基因的进一步利用提供基础,并为在水稻育种中确定合适的籼粳配比提供参考。【方法】选用明恢63、明恢86和福恢673这同一个衍生系统中不同辈序的骨干材料,以及以福恢673为父本配组育成的超级稻品种宜优673及相应母本宜香A,应用13个重要基因的17个标记和15个籼粳特异性SSR标记,分析其等位基因变化。【结果】受测材料在8个基因区间呈现差异,包括控制抽穗期和产量性状的基因2个、米质关键基因2个、抗稻瘟病基因4个。其中,在对稻米直链淀粉含量和胶稠度具有关键作用的Wx上,明恢63中的优质等位基因经明恢86传递到福恢673;在对稻米糊化温度具有关键作用的ALK及控制水稻稻瘟病抗性的Pib和Pita上,宜优673的父本福恢673和母本宜香A呈现出良好的互补性。在籼粳属性上,明恢63、明恢86和福恢673均为中间偏籼型,其中,明恢86和福恢673的粳型成分均为40.0%,高于明恢63的33.3%。【结论】来源于明恢63和其它亲本的有利等位基因在福恢673中聚合,并进一步在宜优673中与宜香A有利等位基因形成互补。 相似文献
19.
[目的]评价分析华南地区常用籼稻亲本稻瘟病抗性及抗性基因,为水稻稻瘟病抗性育种提供理论依据.[方法]利用人工接种鉴定对52份华南地区常用籼稻亲本进行稻瘟病抗性分析,同时利用分子标记检测稻株携带的抗性基因,分析亲本材料稻瘟病抗性与其所携带稻瘟病抗性基因间的关系.[结果]从52份适应华南生态条件的籼稻亲本材料中筛选获得4份广谱抗源(2份抗谱为100.0%,2份抗谱为92.9%);常规稻较恢复系和保持系具有更高的稻瘟病抗性.ZA1、ZA9和ZB9生理小种较ZB1和ZB5生理小种表现出更强的致病力,具有较低的抗性频率.Pi-ta和Pi54基因的出现频率最高,均为0.42;其次是Pib基因,出现频率为0.37;Pi-km基因的出现频率较低,仅0.06;所有籼稻亲本材料中均未检测出Pi9基因.携带Pib+Pi54+Pi-km和Pi-ta+Pib+Pi54三基因稻株的抗性高于所有单基因或双基因稻株.[结论]华南常用籼稻亲本材料中存在着优良的稻瘟病广谱抗源,可利用这些抗源拓宽育种材料的遗传背景,培育抗病优良品种.多个抗性基因聚合能有效提高稻株对稻瘟病不同生理小种的抗性,在育种实践中应加强多基因聚合材料的创制和利用研究. 相似文献
20.
根据已知NBS-LRR类抗病基因结构中氨基酸的保守区域设计简并引物,对水稻不育系系谱NBS-LRR类抗病基因同源序列进行克隆、测序和聚类。同源序列克隆与分析表明,7个水稻不育系系谱亲本中共获得14个阳性克隆,其中11个含有NBS-LRR类抗病基因所特有的保守氨基酸结构域KinaseⅠ、KinaseⅡ、KinaseⅢ及跨膜区域。这些片段间同源性最高达98.3%,最低仅为29.7%;11个氨基酸片段与抗病基因Xal(AB002266)的同源性较高,42%-45%的氨基酸序列相同,59%-64%的氨基酸序列相似,且与水稻其他NBS-LRR类抗性蛋白相似性很高。通过聚类分析,可以将其分为3类,分别记为G1、G2、G3,并发现抗源谷农13所含有的G3类基因,通过天谷、福伊传给后代谷丰、全丰。 相似文献