水稻品种抗黑条矮缩病人工接种鉴定方法

为建立科学有效的水稻品种抗黑条矮缩病人工接种鉴定方法,分别研究了病毒在介体体内的循回时间、接种时间、接种强度、水稻接种苗龄4个因素对鉴定效果的影响。结果显示,病毒在介体体内的循回时间为12~15天或21~24天条件下,鉴定效果优于8~11天和16~17天处理;接种48~72 h条件下,鉴定效果优于12~24 h处理;有效接种强度4~20虫/苗条件下,鉴定效果优于1~3虫/苗处理;水稻接种苗龄0.5~2.5叶龄条件下,鉴定效果优于2.5~3.5叶龄处理。由此构建了水稻抗黑条矮缩病人工接种鉴定方法:循回时间为12~15天、接种时间48~72 h、有效接种强度4~20虫/苗和水稻接种苗龄0.5~2.5叶。在此条件下对不同抗性表现的水稻品种进行鉴定,其鉴定结果与重病区田间鉴定没有显著性差异,表明所建立的人工接种鉴定方法能客观地反映水稻品种对黑条矮缩病的抗性水平。     

我国水稻黑条矮缩病和玉米粗缩病研究进展

上世纪60年代初我国华东和华北地区分别发现了水稻黑条矮缩病和玉米粗缩病,后来都分别发生了2次大流行,同时都以病害防治为目标分别开展了研究,探明了当地病害发生规律,提出了相应的防治方法,获得了不同程度的防病效果.80年代以来,水稻黑条矮缩病的发生报道仅限于华东地区局部地市,玉米粗缩病的发生涉及华北、东北、西北、西南和华中地区13个省市.根据各地对两病病原形态、寄主及症状、介体昆虫及传病特性等方面相似性的报道,提出了我国玉米粗缩病与水稻黑条矮缩病病原异同性问题.经近10年来对两病用生物学和分子生物学方法进行比较鉴定,证明我国玉米粗缩病和水稻黑条矮缩病病原同属水稻黑条矮缩病毒(RBSDV).同时基本探明了水稻黑条矮缩病在浙江杂交稻区和华北玉米区的再次流行成灾的原因,提出了相应的防治措施,并有效地控制了病害的流行危害.     

水稻黑条矮缩病和玉米粗缩病的发生特点及防治策略

本文着重介绍水稻黑条矮缩病的主要发生危害特点及防治策略,以加深对新列入湖北省植物检疫补充对象的了解与认识,掌握“两病”的主要传播途径。强化植物措施,对保护区域性农业生产安全具有重要实践与指导意义。     

玉米粗缩病抗性遗传研究

 本文选用3个抗病自交系(齐319、X178、沈137)和3个感病自交系(掖107、掖478、沈5003)按照NCII交配设计配制9套杂交组合研究了玉米抗粗缩病遗传规律。2009-2010年在曲阳、保定采用田间自然发病方法鉴定亲本、F₁、F₂群体的玉米粗缩病抗性,并采用灰飞虱人工接种方法鉴定亲本材料的抗病性。运用QGA station 软件的加性-显性-上位性(ADAA)遗传模型进行数据分析,结果表明,显性效应和加性效应是控制玉米粗缩病抗性的主要遗传组分,分别占表型变异的44.8%和13.1%,杂合显性效应表现负向杂种优势,抗病育种可加以利用。加性×加性上位性效应在玉米自交系和杂交组合抗粗缩病遗传中普遍存在,但因材料不同而表现负向或正向效应。玉米粗缩病抗性易受环境影响,显性与环境互作效应方差占表型方差的比率为39.8%,达到极显著水平。因此,培育抗粗缩病玉米品种应依据基因型选配适当的亲本材料,抗病品种宜进行多年多点鉴定筛选。     

玉米粗缩病和水稻黑条矮缩病的发生及防治对策

本文根据玉米粗缩病和水稻黑条矮缩病近几年来的发生特点和为害情况 ,具体阐述这两种病害的发病症状、发生规律、病原生物学、发生影响因素、合理的防治措施 ,为今后更好地识别和防治这两种病害提供了理论基础     

水稻黑条矮缩病和玉米粗缩病的发生特点及防治策略

水稻黑条矮缩病和玉米粗缩病都是病毒病害。“两病”的重要感病期平均为营养生长至生殖生长的过渡期,危害盛期也都在生殖生长旺期。受害作物感病愈早,危害愈重。“两病”都能致受害作物矮化,生长畸形,阻碍正常生长,严重影响产量和品质。     

玉米粗缩病毒及抗病策略

玉米粗缩病毒属于植物呼肠孤病毒组的斐济病毒属，是一种有双层衣壳的球状病毒。该病毒基因组包含10条线状的双链RNA片段，近年来已经完成了其中4条RNA片段的测序工作。玉米粗缩病毒对我国玉米生产的危害最为严重。该病毒主要由介体昆虫传播，侵染的植株表现严重矮化和叶片浓绿等病症。玉米对该病毒的抗性表现出多基因控制的数量性状遗传的特征。作者描述了玉米粗缩病病原、病症及侵染循环的特点，对玉米粗缩病毒基因组的研究进展进行了评述，并对抗病策略进行了讨论。     

引起玉米粗缩病的水稻黑条矮缩病毒山东分离物的分子特性

 Four isolates of Rice black-streaked dwarf virus (RBSDV) were collected from the maize plants showing rough dwarf symptom in Linyi and Tai'an,Shandong province.The S10 genomic sequences of these isolates were determined and compared with those of 14 other RBSDV isolates.All of the four sequences were 1 801 base pairs (bp) long including the 5'-UTR of 21 bp and the 3'-UTR of 103 bp.They all contained an open reading frame of 1 677 bp (22-1698),encoding the coat protein (CP) of 558 amino acids.The sequences of these four RBSDV isolates and those of the major cp gene of 14 other isolates available in the GenBank were divided into two groups in the phylogenetic tree.Recombination analysis indicated that the isolate Lym2 was likely a recombinant of isolates Lym1 and Zhjs.     

我国玉米上一个水稻黑条矮缩病毒重排体的ORF序列

由水稻黑条矮缩病毒(Rice black-streaked dwarf virus,RBSDV)引起的粗缩病是我国玉米生产中的一种毁灭性病害.本文报道从山东枣庄玉米上得到的RBSDV分离物SDZZ10所有可读框(ORF)的序列.与全基因组序列已知的2个RBS-DV分离物Hbm和Zjr比较,SDZZ10的大多数ORF与Hbm相应ORF的核苷酸序列一致率更高,其蛋白与Hbm相应蛋白的氨基酸一致率也更高,但SDZZ10的ORF3,ORF4,ORF9-2和ORF10与jr相应ORF的核苷酸一致率更高,P4,P9-1和P9-2与Zjr相应蛋白的氨基酸一致率更高.根据ORF8和ORF10构建的系统进化树中,SDZZ10分别属于不同的组,说明SDZZ10是一个自然发生的重排体.     

2009年造成湖南省水稻大面积矮缩的是南方水稻黑条矮缩病

2009年在湖南省大面积发生一种水稻病毒病,其症状表现为植株矮缩、叶色深绿、高位分蘖、茎秆出现乳白色或浅褐色点条状突起、茎节上出现气生须根。电镜结果表明:在病株韧皮部可见具斐济病毒特征性晶格状排列球状病毒粒体。病毒基因组S10片段部分序列的相似性比对与系统进化树分析表明,该病害是南方水稻黑条矮缩病。     

引起玉米粗缩病的水稻黑条矮缩病毒河南分离物的分子特征

<正>目前已报道的造成玉米粗缩病的病原有3种,分别是玉米粗缩病毒(Maize rough dwarf virus,M RDV),水稻黑条矮缩病毒(Rice black-streaked dwarf virus,RBSDV)和南方水稻黑条矮缩病毒(Southern rice black-streaked dwarf virus,SRBSDV)[1]。我国于1954年在新疆和甘肃发现该病,上世纪60年代曾在中东部夏玉米区流行,至70年代以来各玉米产区已陆续发生[2],近年来在黄淮海夏玉米区特别是套播或晚春播、早夏播玉米田发生危害严重。     

玉米抗粗缩病遗传及分子标记研究

Maize rough dwarf disease caused by Rice black-streaked dwarf virus (RBSDV) is transmitted by planthopper in China. Identification and development of resistant hybrids are complicated because of the inconsistencies in viral disease pressure every year. Marker-assisted selection can provide means for main-taining virus resistance alleles even in the absence of disease. In this paper a F₂ segregation population was constructed to identity the molecular markers linked to the resistance gene using a cross between a resistant and a susceptible parents (Qi319×Ye107). Fifteen-day-old seedlings of F₂ population were exposed to small brown planthoppers carrying RBSDV for 3 days in specific inoculation chamber. The inoculated plants were transplanted to screenhouse after removing the insects completely. In plant maturity stage the disease resistance of all the individuals were visually assessed. The results showed that 17, 8, 11, 51 and 122 plants were scaled from 0-4 respectively, in which 0 means no symptoms and 4 represents highly susceptible. Chi-square test demonstrated that the segregation ratio of phenotype was 1∶15 (resistant: susceptible) or 1∶6∶9 (resistant∶moderate∶susceptible) in the F₂ population, indicating RBSDV resistance of maize was controlled by two recessive genes. The F₂ individuals DNA were extracted and 261 SSR (simple sequence repeat) primers derived from maize genome ten chromosomes were selected from maize GDB database to construct genetic linkage map. The linkage map consisted of 71 polymorphic SSR markers, spanning a genetic distance of 996.6 cM with an average interval of 14.0 cM between adjacent markers. The resistant and susceptible gene pools were set up for BSA (bulked segregant analysis) and 6 polymorphism markers were obtained with BSA-SSR method between the two pools. The F₂individuals were further analyzed with 6 polymorphism markers. Chi-square test showed that phi 051, umc1407 and umc1432, mapped on chromosome 7 and 10, exhibited segregation distortion significantly and very significantly in susceptible individuals. These three SSR markers were identified as potential markers linked to the resistant loci.     

南方水稻黑条矮缩病毒检测方法的比较

为明确南方水稻黑条矮缩病毒（Southern rice black-streaked dwarf virus, SRBSDV）检测方法的最佳适用范围,对其现有检测方法Real time RT-PCR、RT-LAMP、RT-PCR的灵敏性及特异性进行了比较,并分析了依据SRBSDV单克隆抗体3F1建立的斑点免疫结合印迹（dot immunobinding assay, DIBA）方法对检测植物寄主和白背飞虱Sogatella furcifera Horvth的特异性。结果表明,灵敏性以Real time RT-PCR方法最高,其次为RT-LAMP方法,而普通RT-PCR方法相对较低。这3种方法均可特异性检测SRBSDV植物寄主和白背飞虱;DIBA方法可以满足SRBSDV和水稻黑条矮缩病毒（Rice black-streaked dwarf virus, RBSDV）植物寄主和白背飞虱大量样品的检测,但不能区分SRBSDV和RBSDV。Real time RT-PCR方法实现了短时间内对SRBSDV RNA拷贝数的相对定量;RT-LAMP方法全程恒温反应,无需热循环仪。     

检测南方水稻黑条矮缩病毒胶体金免疫试纸条的建立

由白背飞虱Sogatella furcifera(Horváth)传播的南方水稻黑条矮缩病毒(Southern rice blackstreaked dwarf virus,SRBSDV)是目前我国南方水稻上危害最严重的病毒,为开发简便、快速、准确的SRBSDV病毒检测技术和检测试剂,以感染SRBSDV的植物粗提液为免疫原,利用杂交瘤技术制备了2株抗SRBSDV的单抗(14A8和15G6),并利用制备的单抗建立了可快速、特异、灵敏地检测SRBSDV的胶体金免疫试纸条。结果表明,2株制备单抗的抗体类型及亚类均为Ig G1、kappa链,单抗腹水的间接ELISA效价均达到10~(-7);Western blot分析表明,2株单抗均与SRBSDV的外壳蛋白亚基有特异反应,而不与水稻黑条矮缩病毒(Rice black-streaked dwarf virus,RBSDV)反应。以制备14A8和15G6单抗分别为捕获抗体和胶体金标记抗体,开发成能在5 min内准确、特异地检测水稻植物和白背飞虱传毒介体体内SRBSDV的胶体金免疫试纸条;灵敏度分析表明,该检测试纸条的检测水稻病叶的灵敏度达到1∶6 400倍(g/m L),检测单头携毒白背飞虱的灵敏度达到1∶51 200倍(单头/μL)。田间样品检测结果表明,该试纸条的检测结果与RT-PCR的符合率达到100%。建立的SRBSDV胶体金免疫试纸条可对南方水稻黑条矮缩病毒进行快速、特异、灵敏的诊断和检测。     

Improved method for assaying maize plant resistance to maize rough dwarf disease by artificial inoculation and real-time RT-PCR

The study of maize rough dwarf disease (MRDD) and breeding for resistance requires inoculation of maize plants by means of planthoppers. The plant age, insect density and inoculation duration are main factors in the success of maize rough dwarf disease inoculation. These parameters were tested using a susceptible maize inbred line Ye478. Using one or two-leaf plants, 15 planthoppers per plant and a five day inoculation duration, the line Ye478 was the most susceptible with 100% diseased plants; F112132 was moderately susceptible with 60% diseased plants and 90110 and F022411 were resistant without any disease. The results were consistent with those from six years of field studies. Using enzyme-linked immunosorbent assay (ELISA) and real-time quantitative RT-PCR, rice black-streaked dwarf virus was detected in severely diseased plants. The plants were rated from 0 to 3 according to their symptoms at the time of flowering. Plants scoring 0, 1 and 2 could not be distinguished by ELISA, only by real-time quantitative RT-PCR. All of the plants with a score of 3 were positive by ELISA and real-time quantitative RT-PCR. The significant differences in the average viral contents in plants with different symptom ratings could be distinguished by using real-time RT-PCR.     

南方水稻黑条矮缩病防控药剂的创制与应用

南方水稻黑条矮缩病是我国及越南等东南亚国家稻区水稻的重要病毒病。该病害潜隐性强、危害重、防控难度大,对水稻生成构成极大威胁。本文综述了南方水稻黑条矮缩病毒的基因组结构及功能、分子进化、病毒与植物寄主或媒介昆虫间的互作、测报技术、药剂创制和田间综合防控的研究进展,并对未来工作进行了展望与讨论。     

水稻黑条矮缩病毒外壳蛋白基因的克隆、原核表达及抗体制备

为探讨水稻黑条矮缩病毒（Rice black-streaked dwarf virus,RBSDV）的种群变异,采用RT-PCR方法从感染RBSDV山东分离物RBSDV-JN1的水稻中克隆该病毒的S10片段,并进行序列分析,进而构建包含RBSDV-JN1的CP基因的原核表达载体,导入大肠杆菌Escherichia coli BL21（DE3）诱导表达;并以表达的融合蛋白为抗原,制备病毒的多克隆抗体。结果显示：S10片段全长为1 801 bp,包含1个1 677 bp编码框,编码558个氨基酸的外壳蛋白（CP）;与GenBank已注册的19个RBSDV的CP基因序列相比较发现,病毒各分离物间核苷酸的序列相似性为90.5%~99.8%,氨基酸的序列相似性为95.9%~100.0%;地理位置较近的分离物间序列相似性较高,RBSDV种群分布呈现区域性差异。原核表达载体pET-RBSDV-CP经IPTG诱导,获得了分子量约为63 kD带有His标签的目的蛋白。用该蛋白制备的多克隆抗体经ELISA、Western blot和Dot-blot ELISA检测显示,效价为1：81 000,且具有良好的特异性。