中国小麦条锈菌转主寄主小檗的鉴定

用萌发的小麦条锈菌冬孢子接种采自陕西省境内的陕西小檗、少齿小檗和长穗小檗,3种小檗均产生了性孢子器和锈孢子器。用人工接种小麦条锈菌冬孢子在陕西小檗上产生的锈孢子器接种小麦铭贤169产生了典型的条锈菌夏孢子堆症状。特异性PCR和DNA序列分析表明,人工接种产生于小檗上的锈孢子、接种锈孢子于小麦上产生的夏孢子堆与小麦条锈菌DNA的ITS区序列完全一致。更为重要的是,用采自田间受锈菌侵染的小檗叶片产生的锈孢子接种小麦铭贤169,经培养在小麦铭贤169叶片上产生了典型的条锈病症状。从而证实,在自然条件下,在中国,小檗不仅可作为小麦条锈菌的转主寄主,而且小麦条锈菌可在小檗上完成其有性繁殖过程。这一发现对进一步揭示我国小麦条锈菌高度的群体遗传多样性与毒性变异机理、完善小麦条锈病的防治策略具有十分重要的理论和实际意义。     

'陕麦139'受条锈菌抑制表达相关基因的分析

以‘条中32’接种前后的小麦抗条锈病种质‘陕麦139’幼苗叶片为材料,利用抑制消减杂交技术,构建了条锈菌接种48 h小麦抗病品种叶片的抑制表达SSH-cDNA文库,通过测序以了解条锈菌侵染后被抑制表达的相关基因。从构建的文库中随机选取48个阳性克隆,进行测序,经过序列拼接等,获得高质量EST序列34条(Gen-Bank序列号为EL930132-EL930165),序列比对分析表明其中31条EST序列与已知功能的基因序列同源性较高,主要涉及植物的能量代谢途径、膜转运、信号传导及核酸加工等方面的基因,包括光合系统Ⅱ抗性蛋白D1、碳酸酵素、线粒体磷酸盐转运子、苹果酸脱氢酶、过敏性诱导反应蛋白和rRNA核酸内切酶等相关基因。此外,获得未知功能的EST序列3条。研究表明,小麦在条锈病菌侵染初期,许多基因的正常表达调控受到影响,如能量代谢和寄主细胞结构木质化,阻止小麦抗病过敏性反应等。     

小麦-簇毛麦易位系的抗条锈性遗传分析

本文对7个小麦-簇毛麦易位系种质V9128-1、V9128-3、V9129-1、V3、V4、V5、V12的抗条锈性进行遗传研究.用小麦条锈菌对供试材料苗期接种鉴定表明, 7个易位系的抗病谱存在着明显的差异,据基因推导原理和系谱分析,可初步推测这7个易位系所包含的抗条锈基因不尽相同.进而对两个抗病谱较宽的易位系的抗条锈性进行了遗传分析.结果表明小麦-簇毛麦易位系V9128-1对条锈菌CY30的抗条锈性由一对显性基因控制,小麦-簇毛麦易位系V3对条锈菌CY31的抗条锈基因由一显一隐2对基因控制.揭示了小麦-簇毛麦易位系抗条锈性为寡基因控制,为尽快利用这些宝贵抗病基因,培育小麦抗锈品种提供了科学依据.     

小麦-簇毛麦易位系的抗条锈性遗传分析

本文对7个小麦-簇毛麦易住系种质V9128-1、V9128-3、V9129-1、V3、V4、V5、V12的抗条锈性进行遗传研究。用小麦条锈菌对供试材料苗期接种鉴定表明,7个易位系的抗病谱存在着明显的差异,据基因推导原理和系谱分析,可初步推测这7个易位系所包含的抗条锈基因不尽相同。进而对两个抗病谱较宽的易住系的抗条锈性进行了遗传分析。结果表明：小麦．簇毛麦易位系V9128-1对条锈菌CY30的抗条锈性由一对显性基因控制,小麦-簇毛麦易位系V3对条锈菌CY31的抗条锈基因由一显一隐2对基因控制。揭示了小麦．簇毛麦易位系抗条锈性为寡基因控制,为尽快利用这些宝贵抗病基因,培育小麦抗锈品种提供了科学依据。     

低聚糖诱导小麦抗条锈性及相关酶活性变化的研究

用自行设计的方法从植物细胞壁中得到的低聚糖提取物5号对小麦浸种和苗期喷雾处理,均使接种条锈菌的小麦叶片产生了明显的过敏性坏死反应。对几种与抗病性密切相关的酶活性变化的分析表明,经低聚糖预先处理能显著提高小麦叶片的过氧化物酶(POD)、多酚氧化酶(PPO)和苯丙氨基酸解氨酶(PAL)的活性。     

贵农系列小麦种质资源在甘肃陇南的抗条锈病研究

甘肃陇南是小麦条锈病的常发易变区,是条锈菌新小种的"策源地".小麦条锈病是发生于该区域及甘肃省小麦生产上最主要的病害,种植抗病品种是防治该病最经济有效且绿色环保的措施.本研究对来自贵州大学的小麦种质资源材料贵农19、贵农21、贵农22、贵农29、贵农775在甘肃省农业科学院植物保护研究所兰州温室进行苗期人工接种鉴定,在...     

条锈菌诱导的小麦抗病与感病近等基因系SSH文库构建及分析

为分析条锈菌诱导下的小麦抗病与感病近等基因系之间差异表达的基因,以接种小麦条锈菌CY26小种的抗病近等基因系Yr4/6×Taichung 29幼苗叶片cDNA作为实验方,接种CY26的感病亲本Taichung 29幼苗叶片cDNA为驱动方,利用抑制消减杂交(SSH)技术构建了一个包含1 300余克隆的消减文库。对文库中600个克隆进行了反向Northern点杂交筛选,对获得的阳性克隆进一步进行了Northern杂交验证,获得显著差异的克隆12个。经测序和BlastX分析,其中6个差异表达序列的推测产物分别为亮氨酸重复序列蛋白、过氧化氢酶、硫氧还蛋白、RNA结合蛋白、抗坏血酸过氧化物酶和热激蛋白。除亮氨酸重复序列为信号传导类蛋白外、其他几个均为抗病防御类蛋白。     

感染条锈病的小麦初生叶中RNA的合成（简报）

同一小麦品种接种条锈菌同一生理小种的野生及弱毒突变菌系后，表现亲和反应的叶片中RNA的合成高于未接种对照，侵染初期及显症至产孢阶段表现尤甚。而呈不亲和反应叶片在侵染初期虽也高于对照，但幅度不及亲和反应叶片，此后RNA合成能力逐渐降低，立至低于对照。呈现条锈病不同反应型的不亲和反应叶片也略有差别。     

小麦条锈菌钙调素依赖蛋白激酶基因Pscamk的功能

【目的】克隆小麦条锈菌钙调素依赖蛋白激酶基因Pscamk,并分析其在条锈菌侵染小麦过程中的表达特征及初步功能。【方法】基于本实验室已测序的小麦条锈菌基因组序列,利用RT-PCR方法,从小麦条锈菌生理小种CYR32中克隆Pscamk基因的cDNA序列,并利用网络数据库和生物信息学工具预测该基因编码蛋白的基本特征和保守结构;运用qRT-PCR技术分析Pscamk在不同发育及侵染阶段的表达水平,进一步通过钙调素依赖蛋白激酶(CaMK)的免疫抑制剂KN-93处理小麦条锈菌夏孢子,观察其萌发状况。【结果】获得1个1620 bp的小麦条锈菌CaMK基因Pscamk;序列分析发现,Pscamk编码蛋白包含CaMK蛋白的保守结构域,并与小麦杆锈菌该类蛋白序列相似性最高。qRT-PCR分析表明,Pscamk在条锈菌侵染初期过程中的芽管发育、初生菌丝侵染及吸器形成时期呈显著上调表达,且在条锈菌接种6 h时表达量最高,为对照夏孢子的20.74倍。在专一性免疫抑制剂KN-93处理后,随着KN-93施加浓度的增加,条锈菌夏孢子萌发率逐渐降低,当浓度为1.4μmol/L时夏孢子萌发率为8.02%,仅为对照的12%。【讨论】推测Pscamk基因参与了小麦条锈菌夏孢子萌发、芽管发育以及初期侵染结构的形成。本研究为进一步探索条锈菌细胞钙信号传导机理和致病机制奠定了基础。     

条形柄锈菌34号生理小种的分子标记

条形柄锈菌Puccinia striiformis f. sp. tritici 34号生理小种(CYR34)是目前我国毒性谱最宽、毒性最强的生理小种,对小麦生产和抗病品种选育造成了极大的影响。本研究采用RAPD-SCAR分子标记技术,从300条RAPD随机引物中筛选到CYR34的特异引物,通过特异性片段回收、克隆和测序(GenBank登录号为OL907303),依据序列设计出了S2008F34/S2008R34特异性引物,能够从CYR34及接种CYR34的小麦发病叶片总DNA中都扩增出417 bp的目标片段。采用该特异性引物检测2021年陕西渭南、咸阳和宝鸡地区小麦条锈菌CYR34的流行频率分别为8.6%、6.0%和10.8%。该项研究为小麦条锈菌CYR34号生理小种的快速检测提供了技术支撑。     

小麦与条锈菌互作中过氧化物酶的细胞化学研究

采用细胞化学方法对小麦与条锈菌互作过程中过氧化物酶的分布及其活性大小进行了研究,结果表明：过氧化物酶主要分布于细胞壁和细胞间隙中;在未行接种的小麦叶片中,抗病品种和感病品种的过氧化物酶活性均比较低;条锈菌侵染后,诱导抗、感病品种叶片中的过氧化物酶活性升高,且抗病品种升高的幅度明显大于感病品种;感病品种中过氧化物酶活性在侵染位点附近细胞壁上表现升高,而抗病品种中该酶的活性在侵染点细胞以及远离侵染点的叶肉细胞的细胞壁和细胞间隙中均显著升高。高活性的过氧化物酶是小麦抗条锈性的生化标记和重要机制之一。     

小麦抗病基因表达谱中的文库构建与筛选方法研究

以抗白粉病品系“百农 32 17×Mardler”BC5F4为材料 ,构建了白粉病菌诱导的普通cDNA文库和抑制消减杂交(SSH)cDNA文库。分别对两文库进行了一定规模的测序 ,获得普通cDNA文库不重复ESTs 387条和SSHcDNA文库ESTs 76 0条。将获得的ESTs与GenBank序列进行了BLASTn、BLASTx同源性分析。结果表明 :在普通文库中 ,一些参与光合作用与核糖体构成等的基因出现频率较高 ,而获得的抗病相关基因则较少。消减文库在构建方法、抗病相关基因的富集等方面具有明显的优越性 ,是目前抗病基因表达谱研究中的较好方法。利用高密度点阵膜杂交技术对两文库的筛选结果表明 ,该方法具有相对简便易操作、杂交膜可反复使用等优点 ;但也存在mRNA及同位素用量大等问题。经筛选 ,消减文库中有 5 4 1%的功能已知ESTs为抗病相关基因 ,被证明参与了小麦抗白粉病反应     

Isolation and characterization of a wheat IF2 homolog required for innate immunity to stripe rust

Key message

The wheat eIF2 homolog, TaIF2, is induced by the stripe rust pathogen CYR 32 at an early stage of inoculation and is related to the innate immunity resistance level in wheat.

Abstract

The initiation of translation represents a critical control point in the regulation of gene expression in all organisms. We previously identified an upregulated EST S186 (EL773056) from an SSH-cDNA library of the Shaanmai 139 strain of wheat (Triticum aestivum) infected with Puccinia striiformis (Pst). In the present work, we isolated a cDNA clone and identified it as a wheat IF2 homolog. This cDNA consisted of 1,314 nucleotides and contained an open reading frame of 795 nucleotides encoding a polypeptide of 254 amino acids. The amino acids represent a conserved domain in EF-Tu, mtIF2-II, and mtIF2-Ivc. The alignment result showed that it maybe a partial cDNA of the initiation factor 2/eukaryotic initiation factor 5B (IF2/eIF5B) superfamily gene. Paradoxically, results of a Swiss-model analysis suggesting a low QMEAN Z-score implied that it was a membrane protein. Quantitative RT-PCR studies confirmed that the wheat eIF2 (TaIF2) homolog was differentially expressed in three near-isogenic lines. Critical time points for the induction of resistance by inoculation with Pst CYR32 in YrSM139-1B + YrSM139-2D immune resistance genotype occurred at 1 and 3 dpi (days post-infection). RNAi test showed that the inoculated BSMV-IF2 leaves of Shaanmai 139 showed obvious cell death after 15 days of inoculation with CYR 32. qRT-PCR analysis of the target gene in cDNA samples isolated from BSMV-IF2-Pst, BSMV-0-Pst and Pst infected leaves confirmed that the expression of TaIF2 is suppressed by BSMV-IF2 at 3 dpi. This suggested that TaIF2/eIF5B plays an important role in the mechanism of innate immunity to stripe rust pathogen.     

利用抑制差减杂交技术分离马铃薯晚疫病抗性相关基因

以晚疫病病原菌混合小种接种处理48h的马铃薯水平抗性材料(R-gene-free)叶片为目的材料,以未处理材料作为对照,用抑制差减杂交技术构建了一个富集晚疫病抗性相关基因的差减文库。应用反向Northern技术对840个克隆进行斑点杂交筛选,筛选出150个病原诱导后信号明显增强的克隆。26个片段测序结果表明：部分片段基因功能与抗病性明显相关。7个差异表达片段与GenBank EST数据库中已有晚疫病原诱导马铃薯叶片得到的EST有很高同源性(达95％～100％);部分片段核苷酸或氨基酸序列分别与番茄、烟草、拟南芥等的EST序列或氨基酸序列有较高同源性;另有4个基因片段在GenBank EST数据库中未找到明显的同源序列,可能为新发现的基因片段。     

Development of resistance gene analog polymorphism markers for the Yr9 gene resistance to wheat stripe rust.

The Yr9 gene, which confers resistance to stripe rust caused by Puccinia striiformis f.sp. tritici (P. s. tritici) and originated from rye, is present in many wheat cultivars. To develop molecular markers for Yr9, a Yr9 near-isogenic line, near-isogenic lines with nine other Yr genes, and the recurrent wheat parent 'Avocet Susceptible' were evaluated for resistance in the seedling stage to North American P s. tritici races under controlled temperature in the greenhouse. The resistance gene analog polymorphism (RGAP) technique was used to identify molecular markers for Yr9. The BC7:F, and BC7:F3 progeny, which were developed by backcrossing the Yr9 donor wheat cultivar Clement with 'Avocet Susceptible', were evaluated for resistance to stripe rust races. Genomic DNA was extracted from 203 BC7:F2 plants and used for cosegregation analysis. Of 16 RGAP markers confirmed by cosegregation analysis, 4 were coincident with Yr9 and 12 were closely linked to Yr9 with a genetic distance ranging from 1 to 18 cM. Analyses of nullitetrasomic 'Chinese Spring' lines with the codominant RGAP marker Xwgp13 confirmed that the markers and Yr9 were located on chromosome 1B. Six wheat cultivars reported to have 1B/1R wheat-rye translocations and, presumably, Yr9, and two rye cultivars were inoculated with four races of P. s. tritici and tested with 9 of the 16 RGAP markers. Results of these tests indicate that 'Clement', 'Aurora', 'Lovrin 10', 'Lovrin 13', and 'Riebesel 47/51' have Yr9 and that 'Weique' does not have Yr9. The genetic information and molecular markers obtained from this study should be useful in cloning Yr9, in identifying germplasm that may have Yr9, and in using marker-assisted selection for combining Yr9 with other stripe rust resistance genes.     

Analysis of the transcriptional response to Rice Yellow Mottle Virus infection in<Emphasis Type="Italic"> Oryza sativa indica</Emphasis> and<Emphasis Type="Italic"> japonica</Emphasis> cultivars

Several cDNA libraries were constructed using mRNA isolated from roots, panicles, cell suspensions and leaves of non-stressed Oryza sativa indica (IR64) and japonica (Azucena) plants, from wounded leaves, and from leaves of both cultivars inoculated with Rice Yellow Mottle Virus (RYMV). A total of 5549 cleaned expressed sequence tags (ESTs) were generated from these libraries. They were classified into functional categories on the basis of homology, and analyzed for redundancy within each library. The expression profiles represented by each library revealed great differences between indica and japonica backgrounds. EST frequencies during the early stages of RYMV infection indicated that changes in the expression of genes involved in energy metabolism and photosynthesis are differentially accentuated in susceptible and partially resistant cultivars. Mapping of these ESTs revealed that several co-localize with previously described resistance gene analogs and QTLs (quantitative trait loci).     

Peptides selected from phage display library may change the conformation of S protein of rice stripe virus

Summary Phages with high affinity to the S protein obtained from rice stripe virus (RSV) were enriched from phage-displayed random 12-mer peptide library after three rounds of biopanning. 9 different peptides from the enriched library were selected by ELISA. Circular dichroism (CD) spectra of the GST-S fusion protein with binding phages and non-binding phages showed that structure of the S protein was changed after it bound to each of these 9 selected 12-mer peptides, which suggested that these peptides might disrupt the function of S protein. Thus, those peptides might be used to develop plant resistance and disrupt virus transmission. 3 of the 12-mer peptide genes were fused with the GST gene in pGEX 3X. The fusion proteins were also obtained usingE. coli expression system and purified.