抗条纹叶枯病香稻新品种的分子标记辅助选育

为解决上海主栽水稻品种普遍对条纹叶枯病缺乏抗性、大多数品种成熟期偏晚且食味品质不佳的状况,该研究以高产、广适性粳稻品种‘武运粳7号’为母本,与高抗条纹叶枯病水稻品系‘武2699’进行杂交,获得F1种子,再以早熟、香型优质品种‘太湖香粳’为父本,与(‘武运粳7号’ב武2699’)F_1进行复交,开展聚合育种;并分别利用与水稻抗条纹叶枯病基因QSTV-11b紧密连锁和香味控制基因Badh2共分离的分子标记,对分离世代进行辅助选择,筛选到含这2个基因的纯合基因型单株,结合田间抗性鉴定及香味测定,育成具有香味、高抗水稻条纹叶枯病、高产、优质等特点的早熟晚粳新品种‘沪香粳151’。     

水稻条纹叶枯病抗性位点的检测和效应分析

利用111个家系组成的热研2号(Oryza sativa subsp. japonica ‘Reyan2’)/ Mi lyang23(Oryza sativa subsp. indica ‘Mi lyang23’)重组自交系(recombinant inbred l ines, RIL)群体(F7), 采用重病区田间自然接种方法, 以病情指数作为条纹叶枯病的表型值, 鉴定了2个亲本及111个RIL家系对条纹叶枯病的抗性。使用QTL Cartographer 软件复合区间作图法, 对水稻(Oryza a sativa)条纹叶枯病抗性基因进行了QTL分析。结果检测到2个抗水稻条纹叶枯病的QTL, 分别位于第2和第11染色体上, 其中第11染色体上的QTL贡献率为19.58%, 表明这是一个主效的QTL, 该QTL及其附近的分子标记, 可以用于水稻条纹叶枯病抗性分子标记辅助育种。     

云南30个水稻品种对水稻白叶枯病的抗性评价

【目的】水稻白叶枯病是一种严重危害水稻的细菌性病害,培育抗性品种是治理该病害的重要途径。因此,明确云南水稻材料对检疫性病害水稻白叶枯病的抗性,可以为该病害的防治与监测、水稻栽培的合理布局和良好抗性资源的获取提供依据。【方法】采用剪叶接种法测定云南稻区30个品种对7个不同致病型白叶枯病菌的抗性。【结果】在供试的30个云南水稻品种中,2个品种(玉粳16和JS42糯稻)对7个不同致病型菌株均表现为抗性;15个品种对7个致病型菌株均表现感病;对HEN11、SCYC-6、YN7、YN11、FUJ、YN241和PX099等7个致病型菌株表现抗性的水稻品种分别占26.67%、16.67%、23.33%、13.33%、6.67%、10.00%和20.00%。此外,区试材料的抗性比例高于主栽品种,地方稻未发现抗性品种。【结论】现在生产上的大部分水稻品种对优势致病型病原菌入侵的抵抗能力降低甚至丧失。针对云南地区的优势致病小种FUJ筛选得到2个抗性品种:玉粳16和JS42糯稻。     

我国水稻微核心种质资源对白叶枯病抗性的鉴定和评价

由Xanthomonas oryzae pv.oryzae(Xoo)引起的白叶枯病是水稻生产中普遍发生、危害严重的一种细菌病害。本研究采用我国和菲律宾的6个Xoo代表菌株,人工接种评价了来源于我国26个省份的174份水稻微核心种质资源对白叶枯病的抗性。结果表明,来源于不同稻作区的种质资源以及籼粳亚种对白叶枯病的抗性存在明显分化,6个粳稻品种和7个籼稻品种对2个或2个以上的菌株具有抗性,其中7-304、山酒谷、麻谷子、包二幅以及古154抗谱较广。本文的研究结果将为水稻抗白叶枯病育种提供有用的信息。     

水稻条纹叶枯病抗性位点的检测和效应分析

利用111个家系组成的热研2号（Oryza sativa subsp．japonica‘Reyan2’）／Milyang23（Oryza sativa subsp．indica‘Milyang23’）重组自交系（recombinant inbred lines,RIL）群体（F7）,采用重病区田间自然接种方法,以病情指数作为条纹叶枯病的表型值,鉴定了2个亲本及111个RIL家系对条纹叶枯病的抗性。使用QTL Cartographer软件复合区间作图法,对水稻（Oryza sativa）条纹叶枯病抗性基因进行了QTL分析。结果检测到2个抗水稻条纹叶枯病的QTL,分别位于第2和第11染色体上,其中第11染色体上的QTL贡献率为19．58％,表明这是一个主效的QTL,该QTL及其附近的分子标记,可以用于水稻条纹叶枯病抗性分子标记辅助育种。     

水稻白叶枯病抗性基因Xa21的分子生物学研究进展

由黄单胞杆菌水稻致病变种Xanthomonas oryzae pv.oryzae(Xoo)引起的白叶枯病是水稻重要细菌性病害之一。迄今,已有7个水稻白叶枯病抗性基因被克隆。Xa21是第一个被克隆的白叶枯病抗性基因,因具有广谱抗性而受到广泛的关注。对Xa21的发现、定位及克隆、表达特征、编码产物XA21的生化特性、作用与调控以及XA21介导的免疫反应模式等方面的研究结果进行综述,并对今后的研究方向进行展望。     

水稻品种次生物质与稻白叶枯病(Xanthomonas oryzae pv. oryzae)抗性的关系

应用高效液相色谱分析了对白叶枯病具有不同抗性水平的12个水稻品种中的19个(组)次生物质色谱峰(面积)的差异及其与白叶枯病抗性水平间关系.结果表明,水稻品种抗性水平与谱峰面积值之间相关极显著(R=0.992,p<0.01),被测的19个组分中,峰1、峰2、峰8、峰10、峰12、峰14、峰16和峰18是影响水稻对稻白叶枯病抗性水平的主要抗原次生物质.建立了水稻品种对白叶枯病抗性级别与以上次生物质含量谱峰面积之间的回归模型:Y=10.7603 0.1823X1-0.2287X2 0.2163X8-2.1975X10 0.0728X12 -0.7438X14 1.1484X16-0.7795X18.研究结果表明水稻品种中起抗病作用的抗原次生物质不止一种,而是几种的组合,而且它们对水稻抗病性的贡献作用是不完全相同的,这与它们的性质与含量密切相关.提出了以抗原次生物质为标记的快速分析、鉴定、预测水稻品种对稻白叶枯病抗性水平的新途径、新方法.     

重组水稻条纹叶枯病抗性试验5月开始

农林水产省农业研究中心和农业生物资源研究所宣布从6月进行导入水稻条纹叶枯病病毒编码蛋白的基因重组“日本晴”非封闭式安全性确认实验,同时实施对条纹叶枯病的抗性试验。对条纹叶枯病的抗性试验按以下顺序进行。用传染条纹叶枯病的病毒,给发芽后4～5天长成1.5片叶～2片叶的幼苗接种条纹叶枯病病毒。接种约一个月后,从染条纹叶枯病的程度和发病苗的比例计算发病程度(发病指数),以“高度抗性”、“中度抗性”、“患病性”三种类型断定。实验是以30～35株抗条纹叶枯病、患病性“日本晴”、和一种其他患病性水稻、2种高度抗性水稻、2种中度     

水稻条纹病毒研究进展

水稻条纹病毒引起的水稻条纹叶枯病在水稻种植区造成巨大的经济损失,有关病毒本身及抗病基因一直是近年研究的热点。根据近年的研究成果,综述在病毒的核酸、蛋白质、抗病基因及应用基因工程控制病害等方面的研究进展,并对利用抗病基因工程策略控制病害的应用前景进行了展望。     

水稻对白叶枯病和细菌性条斑病的抗性遗传研究进展

水稻白叶枯病和水稻细菌性条斑病是由稻黄单胞细菌(Xanthomonas oryzae)不同致病变种引起的两种最重要的水稻细菌性病害。发掘和利用抗性基因,培育抗病品种是防治这两种病害的最有效手段之一。本文分别综述了这两种高度相关的病害的抗性遗传研究进展,包括已发掘和利用的主效抗性基因特点及目前国内外对这两种病害的抗性QTL定位研究进展,为水稻抗白叶枯病和细菌性条斑病育种研究提供有用信息。     

Genetic engineering of rice to resist rice tungro disease

Rice tungro disease (RTD), caused by the co-infection of rice tungro bacilliform virus (RTBV) and rice tungro spherical virus, is one of the most important viral diseases of rice in South and Southeast Asia. The disease remains one of the major threats to sustainable rice production in many countries. The lack of resistance genes to RTBV—the causal agent of tungro disease—makes it even more difficult to manage RTD. In this review, we summarize previous and current research efforts to genetically engineer rice in order to increase the crop’s resistance to tungro disease, including the use of pathogen-derived resistance and of host genes that confer RTD resistance and/or that restrict feeding by the insect vector. The prospects of developing rice cultivars with durable resistance to RTD are also discussed.     

Recent advances in rice biotechnology--towards genetically superior transgenic rice

Rice biotechnology has made rapid advances since the first transgenic rice plants were produced 15 years ago. Over the past decade, this progress has resulted in the development of high frequency, routine and reproducible genetic transformation protocols for rice. This technology has been applied to produce rice plants that withstand several abiotic stresses, as well as to gain tolerance against various pests and diseases. In addition, quality improving and increased nutritional value traits have also been introduced into rice. Most of these gains were not possible through conventional breeding technologies. Transgenic rice system has been used to understand the process of transformation itself, the integration pattern of transgene as well as to modulate gene expression. Field trials of transgenic rice, especially insect-resistant rice, have recently been performed and several other studies that are prerequisite for safe release of transgenic crops have been initiated. New molecular improvisations such as inducible expression of transgene and selectable marker-free technology will help in producing superior transgenic product. It is also a step towards alleviating public concerns relating to issues of transgenic technology and to gain regulatory approval. Knowledge gained from rice can also be applied to improve other cereals. The completion of the rice genome sequencing together with a rich collection of full-length cDNA resources has opened up a plethora of opportunities, paving the way to integrate data from the large-scale projects to solve specific biological problems.     

辽宁地区水稻资源抗稻瘟病基因的检测分析

为了明确辽宁地区水稻资源中抗稻瘟病基因的分布情况及抗病效应,选取辽宁地区水稻资源176份,鉴定了抗稻瘟病基因pi21、Pi36、Pi37、Pita、Pid2、Pid3、Pi5及Pib在这些材料中的分布情况,并接种鉴定了这些材料对稻瘟病的抗性。结果表明:176份供试材料中,83份对稻瘟病表现抗病,栽培稻、杂草稻及农家种中抗病品种所占的比率分别为41.48%、1.14%及4.54%。抗稻瘟病基因pi21、Pi36和Pi37在所有参试材料中均未检测到,且分别有74份、49份、47份、52份及89份材料携带Pita、Pid2、Pid3、Pi5及Pib的抗病等位基因。抗病基因绝大部分分布在栽培种中,农家种和杂草稻中分布较少。不含有抗稻瘟病基因和只携带单个抗病基因的材料对稻瘟病的抗性均较差,而抗病基因聚合可不同程度提高材料的抗性。经检测,不含有本试验鉴定的pi21等8个已克隆抗病基因的材料共32份,其中表现抗病的占21.87%;只携带1个抗稻瘟病基因的材料为52份,表现抗病的占17.31%;携带2个抗稻瘟病基因的材料为39份,表现抗病的占69.23%,其中以携带Pita+Pi5的材料最多(14份),且均表现抗病;携带3个抗稻瘟病基因的材料为31份,表现抗病的占77.42%,以携带Pita+Pid3+Pi5的材料抗性最强;携带4个抗稻瘟病基因的水稻材料22份,表现抗病的占72.73%,携带5个抗病基因的水稻材料未检测到。     

田埂留草控制稻飞虱效果及对捕食性天敌多样性影响

为探讨稻田田埂保留杂草控制稻飞虱的效果及对捕食性天敌多样性的影响,以稻田田埂周年性保留杂草为处理,以稻田田埂不保留杂草为对照,对处理区和对照区稻田稻飞虱成若虫、捕食性天敌种类和数量进行系统调查和分析。结果表明,在调查期内(6—10月),田埂留草稻田百丛稻株稻飞虱数量为(891.11±133.12)头,较非留草稻田减少35.31%;田埂留草稻田捕食性天敌隶属5目23科35种,而田埂非留草稻田隶属5目21科33种;田埂非留草稻田捕食性天敌优势种为食虫沟瘤蛛Ummeliata insecticepsBoes.etStr.、拟水狼蛛Pirata subpiraticus Boes.etStr.和黑肩绿盲蝽Cyrtorrhinus livdipennis Reuter,而田埂留草后优势种为食虫沟瘤蛛U.insecticeps、草间小黑蛛Erigonidium graminicolum(Sundevall)、拟水狼蛛和拟环纹狼蛛Lycosa pseudoamulata(Bose.etStr.);田埂留草稻田捕食性天敌的个体数量、丰富度、多样性指数分别为(128.89±13.52)、(33.67±0.50)、(4.53±0.04)头/百丛,较田埂非留草稻田分别增加31.96%、25.73%、5.59%,而优势度指数和均匀性指数没有显著变化。研究结果为发展稻田景观多样化控害提供依据。     

Identification of rice genes induced in a rice blast-resistant mutant

To clarify mechanisms of rice blast resistance in rice plants we used suppression subtractive hybridization (SSH) to isolate genes induced upon rice blast inoculation in a rice blast-resistant mutant. A total of 26 rice cDNAs were isolated and found to have elevated expression upon rice blast infection in a rice blast-resistant derivative, SHM-11, of the rice cultivar, Sanghaehyanghyella. Sequencing of the cDNAs revealed that many of the proteins they encoded had been previously described as involved in plant responses against pathogen attack. Two interesting groups of the defense-related proteins consisted of three different PR5 homologues and four different protease inhibitors, all highly expressed in the rice blast mutant. Genes encoding proteins involved in signal transduction and regulation were also identified, including translation initiation factor eIF5A, C2 domain DNA binding protein, putative rice EDS and putative receptor like kinase. Most of the identified cDNAs were highly expressed 24 h after blast inoculation. Our results suggest that a pathway regulating defense gene expression may be altered in the mutant, resulting in early induction of the defense genes upon fungal infection.     

Induced volatiles in elicitor-treated and rice blast fungus-inoculated rice leaves

The volatiles released from elicitor (copper chloride, jasmonic acid, UV, L-methionine and chitosan oligomer)-treated and rice blast fungus-inoculated rice leaves were collected by the solid-phase microextraction technique and analyzed by GC-MS. (Z)-3-Hexen-1-ol, monoterpenes, methyl salicylate, and sesquiterpenes were identified as elicitor-induced volatiles by a comparison of their GC retention times and mass spectra with those of authentic compounds. The different elicitors resulted in some qualitative and quantitative differences in the production of volatiles. Monoterpenes and sesquiterpenes were identified as the rice blast fungus-induced volatiles.     

Nitrogen immobilization by rice straw incorporated in lowland rice production

Summary The nitrogen supplying power of rice straw for flooded rice production was studied in three field experiments. The net nitrogen immobilization was observed to be 0.54 per cent of the original dry weight of the straw as determined by grain yield responses over single growing seasons. Straws with higher nitrogen concentrations increased grain yield on nitrogen deficient soil, and straws with lower nitrogen concentrations depressed yield.Supplemental nitrogen applied in either urea or vetch resulted in yield increases in the presence of both high and low nitrogen straws. No significant immobilization of supplemental nitrogen was found to result from straw applications.The net nitrogen immobilization percentage obtained in these experiments is approximately one-third the average of values obtained by other workers. We infer that the anaerobic environment of the flooded rice field and its associated bacterial microflora are the cause for the lesser nitrogen requirement for the field decomposition of rice crop residues.