玉米萜类植保素代谢关键基因对小斑病侵染的防御响应分析

该研究选用小斑病差异抗性的玉米自交系Mo17（较抗）、‘郑58’（中抗）和‘吉419’（感）,分别于接种小斑病病原菌玉蜀黍平脐孺胞（Cochliobolus heterostrophus）0、6、12、24、36和48 h时采集接种叶片为材料,采用半定量和实时荧光定量PCR技术,检测倍半萜植保素Zealexin生物合成关键基因（TPS6、TPS11）、二萜植保素Kauralexin代谢关键基因An2以及茉莉酸合成关键基因AOC的表达模式,为阐明不同抗性品种对玉米小斑病的差异防御机制提供理论依据。结果显示：接种小斑病病原菌后,抗病自交系Mo17中TPS6、TPS11基因表达诱导不显著,An2基因表达迅速增加,AOC基因于接种12 h后表达明显上调。‘郑58’中TPS6、TPS11基因被快速诱导,在接种24 h时表达量达到最大,An2基因表达逐渐增加但差异不显著,AOC基因表达量于接种6 h后显著增加;感病自交系‘吉419’中TPS6、TPS11、An2基因在接种24 h后才显著上调,明显比抗性自交系缓慢,AOC基因表达先呈现递减的趋势然后上升,在24 h表达量最高并持续到48 h。研究表明,两类植保素代谢在玉米小斑病防御中具有不同的时间应答模式,但都受到茉莉酸介导。感病自交系中植保素代谢防御响应较慢,而抗病自交系中响应较快,符合其抗性差异。     

小麦抗条锈病近等基因系感染条锈病后丁布含量变化

选用2套遗传背景不同的抗条锈病近等基因系作为供试寄主材料,研究了不同抗条锈病近等基因系丁布的含量及其在感病过程中丁布含量的动态变化.结果表明,在未受病菌侵染情况下,2套分别含有Yr2、Yr9和YrSpP基因的近等基因系（抗病系）与其轮回亲本Taichung 29、铭贤169(感病系)间丁布含量没有显著差异（P＞0.05）.接种条锈病菌后,感病系在病菌侵染初期丁布含量下降,而抗病系在病菌侵染初期丁布含量迅速大幅度上升.感染条锈病最终导致感病植株丁布含量比未接种的植株明显减少, 感病系的减少幅度明显高于抗病系.在整个病程中,抗病系丁布的含量始终高于感病系,表明接种条件下小麦植株体内丁布含量变化与小麦抗条锈近等基因系的抗性有关.     

茄子种质资源抗青枯病的鉴定与评价

对304份茄子种质资源进行抗青枯病苗期人工接种鉴定,筛选出免疫材料10份,高抗材料51份,抗病材料35份,中抗材料32份,感病或高感材料176份,分别占鉴定材料的3.3%、16.8%、11.5%、10.5%和57.9%.茄子野生近缘种Solanum sisymbriifolium和S.torvum对青枯病有较强的抗病性,可作为茄子青枯病的抗源材料.获得4份抗青枯病的种间体细胞杂种.茄子对青枯病的抗性遗传较为复杂,主要由多基因控制.     

抗病基因Bdv2抑制大麦黄矮病毒复制和运动的分子证据

小麦-中间偃麦草易位系YW642含有一个源于中间偃麦草7X染色体的抗性基因Bdv2,对大麦黄矮病毒GAV株系具有高度抗性。为有效控制该病毒和阐明抗黄矮病机制,采用半定量RT-PCR的方法,研究了大麦黄矮病毒GAV株系在YW642及其感病姊妹系YW641中积累浓度的差异。分别在接种病毒不同时间、不同部位上取样,用半定量RT-PCR的方法来检测GAV的积累浓度。在接种部位,抗病植株中病毒的浓度远远低于感病植株。在侵染的前5d,抗病植株YW642中病毒会有一定程度的复制和积累,但随后病毒浓度开始下降,接种14—16d时没有检测到病毒;而在感病株系中,病毒积累的浓度远远高于抗病植株,并一直维持一个较高的浓度。在未接种部位．感病植株中可检测到较高浓度的病毒,说明病毒能从接种点很快运动到未接种部位,并大量复制。而在抗病系YW642中,未接种部位始终未检测到病毒。实验结果从分子水平上证明,在抗病植株中BYDV的复制和运动均受到了极大的抑制：这是抗病基因Bdv2与BYDV互作后,激活了一系列防御基因的结果。另外还确定了防御基因诱导表达的时间,为从抗病植株中分离抗病相关基因、研究抗黄矮病机制提供了取样的依据。     

青枯菌诱导的花生基因表达谱SSH分析

以抗青枯病花生种质‘J4’和‘中花6号’、感青枯病花生品种‘中花12号’为材料,用强产青枯菌毒菌株(Ralstonia solanacearum)对其根系分别接种,采用抑制差减杂交(SSH)技术检测花生根系应答侵染的基因表达谱变化,并对文库中差异基因进行Real-time PCR分析。结果表明:经菌液PCR检测对挑选出的1 036阳性克隆片段进行测序及片段整合分析,获得162条花生基因,有功能注释的基因58条,其中44条基因参与了细胞结构(6%)、信号转导(12%)、抗病防御(5%)、转录调控(12%)等生理过程。用Real-time PCR技术对7个基因在‘中花6号’和‘中花12号’中的表达模式分析结果表明,6个基因在青枯菌侵染早期在抗病材料‘中花6号’中呈上调表达,可能与青枯病抗性直接相关。     

西瓜花叶病毒诱导对不同抗性美洲南瓜防卫基因表达的影响

为了明确防卫基因PAL与美洲南瓜抗西瓜花叶病毒(watermelon mosaic virus,WMV)之间的关系,通过室内接种和实时荧光定量PCR技术,测定了WMV侵染对不同抗性美洲南瓜体内防卫基因PAL表达的影响。结果表明:(1)室内测定显示,抗病品种GBRV-8发病率和病情指数(15.6%和14.2)显著低于感病品种‘光板’(91.1%和65.9)。(2)实时荧光定量PCR表明,接种WMV后不同抗感品种不同组织部位PAL基因相对表达量随着接种时间增加,整体呈现出先增加后降低的趋势,而且不同组织部位PAL基因相对表达量总体呈现出叶片较高,叶柄和茎秆次之。(3)接种后5个品种不同组织部位PAL基因相对表达量与对照相比均存在显著差异,且抗病和中抗品种不同组织部位PAL基因相对表达量显著高于感病品种,尤其抗病品种GBRV-8不同组织部位PAL基因相对表达量最高,感病品种光板最低。研究认为,防卫基因PAL表达量与美洲南瓜品种抗病毒病强弱密切相关。     

葡萄抗白粉病相关基因γVPE的克隆与表达分析

该研究采用RT-PCR技术,从抗病的中国野生华东葡萄‘白河-35-1’和感病的欧洲葡萄‘佳丽酿’中克隆了液泡加工酶基因(γVPE),分别命名为VpγVPE和VvCγVPE。克隆的2个γVPE基因cDNA长度均为1 624bp,ORF为1 482bp,编码493个氨基酸。氨基酸多序列对比分析发现,‘白河-35-1’、‘佳丽酿’、‘无核白’和‘黑比诺’葡萄中的γVPE基因底物结合口袋域的3个关键氨基酸之一的丝氨酸(Ser395)均变为丙氨酸(Ala),与其他植物的VPE基因底物口袋结合域有所不同。实时荧光定量PCR表明,在白粉菌诱导后的不同时期内,γVPE基因在感病葡萄和抗病葡萄中的表达模式不同,抗病株系中VpγVPE基因的表达量在诱导后的前期(4h和48h)和后期(168h)均有所增加,而感病株系中VvCγVPE基因在诱导后4h表达量最高,随后降低。γVPE基因在白粉菌诱导后不同时期内表达量的变化,表明γVPE基因在一定程度上与葡萄的抗性相关。研究结果为进一步揭示γVPE基因在抗病过程中的分子机理奠定了基础。     

不同抗性泡核桃对褐斑病病原菌侵染的生理生化响应北大核心CSCD

以抗病和感病泡核桃无性系为实验材料,人工接种褐斑病病原菌后测定不同时期叶片中保护酶活性、总酚、类黄酮、叶绿素含量等相关生理生化指标,探讨不同抗性泡核桃响应褐斑病病原菌侵染的生理生化差异。结果表明:(1)接种病原菌后,感病无性系64叶片带菌率随着侵染时间的增加而升高,且显著高于抗病无性系199(P<0.05)。(2)抗病无性系199和感病无性系64叶片的SOD、POD、CAT、APX和PPO活性随着侵染时间均呈现先升高后降低的变化趋势,其中SOD、POD和APX活性均在16 d时达到最大值;与较感病无性系相比,接种后抗病无性系的POD和APX活性较强;在接种前期(1~16 d),感病无性系PPO活性高于抗病无性系,后期(16~34 d)CAT活性也较抗病无性系高。(3)抗病无性系叶片叶绿素含量始终高于感病无性系;抗病无性系MDA含量在接种后无明显变化,而感病无性系先增加后降低,其细胞膜脂过氧化较重。(4)两个无性系叶片可溶性蛋白和可溶性糖含量变化较平缓,且差异不显著,在接种后期(34 d)有升高的趋势;接种5 d以后,感病无性系叶片类黄酮和总酚含量始终显著高于抗病无性系。研究发现,泡核桃抗病无性系叶片带菌率较低,较难受到侵染,并且通过提高POD和APX活性以及积累较多叶绿素、可溶性蛋白和可溶性糖来应对病原菌侵染引起的氧化胁迫,抑制病原菌的繁殖,从而提高其抗病能力。     

3种外源诱导剂预处理对甜瓜抗病特征及其Fom 2和CHT基因表达的影响

该研究选用水杨酸(SA)、茉莉酸甲酯(MeJA)、Ca~(2+)、无菌水(对照)作为外源预处理诱导剂,以抗、感枯萎病甜瓜品种为材料,分别于诱导预处理2d后接种甜瓜枯萎菌,并于接种5、7、9d时观察发病情况,进行病情调查;在接种后1、3、5、7、9d取甜瓜叶片,分析抗病甜瓜(MR-1)和感病甜瓜(M1-15)叶片中甜瓜抗枯萎病基因(Fom-2)、几丁质酶基因(CHT)的表达变化,以探寻提高防治甜瓜枯萎病菌侵染的技术途径。结果显示:(1)外源MeJA和SA预处理接种后2品种的病情指数显著低于对照,但Ca~(2+)处理后的病情指数与对照无显著差异。(2)经外源诱导预处理接种后,MR-1和M1-15品种叶片的Fom-2和CHT基因均出现差异表达,但Ca~(2+)诱导其上调表达的效果微弱。(3)经SA、MeJA诱导预处理接种后,2品种叶片的Fom-2和CHT基因表达总体均显著高于对照;Fom-2基因的表达抗病甜瓜MR-1分别在接种后5d、7d时达到峰值,而感病甜瓜M1-15则均在接种9d时达到峰值;CHT基因的表达抗病甜瓜MR-1则均在接种后7d时达到峰值,而感病甜瓜M1-15分别在接种后7d、9d时达到峰值。(4)Ca~(2+)处理对抗、感甜瓜叶片的Fom-2和CHT基因的表达均无显著影响。(5)相关分析表明,经SA、MeJA诱导预处理接种后,甜瓜枯萎病病情指数与Fom-2和CHT基因表达量有显著的相关性;而Ca~(2+)处理效果不显著。研究表明:SA、MeJA通过诱导Fom-2、CHT基因上调表达,进而使甜瓜的抗病性提高,而Ca~(2+)处理对两基因表达和甜瓜抗病性均无显著影响。     

Early burst of reactive oxygen species positively regulates resistance of eggplant against bacterial wilt

Reactive oxygen species (ROS) play a crucial role in the early response to plant biotic and abiotic stresses. In this study, bacterial wilt‐resistant and wilt‐susceptible eggplants were inoculated with Ralstonia solanacearum and the ROS content was analysed. The result revealed an increased accumulation of hydrogen peroxide (H₂O₂) and superoxide (O₂^?) in resistant and susceptible eggplant roots after R. solanacearum inoculation. H₂O₂ and O₂^? accumulation increased earlier in the inoculated resistant eggplant root than in the inoculated susceptible eggplant root. Real‐time polymerase chain reaction results revealed that respiratory burst oxidase homologue (Rboh) A, RbohB, RbohF and PR1 expression levels increased in inoculated resistant eggplant roots at an early stage (0–60 h postinoculation) and were at higher expression levels than those in susceptible eggplant roots. Ascorbate peroxidase, peroxidase and catalase activities were higher in inoculated resistant eggplant roots than in susceptible eggplant roots at the early stage. Hence, an early ROS burst positively regulates bacterial wilt resistance in eggplant.     

Role of hydrogen peroxide and ascorbate-glutathione pathway in host resistance to bacterial wilt of eggplant

Ralstonia solanacearum, a soil-borne bacterium causes bacterial wilt, is a lethal disease of eggplant (Solanum melongena L.). However, the first line of defense mechanism of R. solanacearum infection remains unclear. The present study focused on the role of induced H₂O₂, defense-related enzymes of ascorbate-glutathione pathway variations in resistant and susceptible cultivars of eggplant under biotic stress. Fifteen cultivars of eggplant were screened for bacterial wilt resistance, and the concentration of antioxidant enzymes were estimated upon infection with R. solanacearum. A quantitative real-time PCR was also carried out to study the expression of defense genes. The concentration of H₂O₂ in the pathogen inoculated seedlings was two folds higher at 12 h after pathogen inoculation compared to control. Antioxidant enzymes of ascorbate-glutathione pathway were rapidly increased in resistant cultivars followed by susceptible and highly susceptible cultivars upon pathogen inoculation. The enzyme activity of ascorbate-glutathione pathway correlates by amplification of their defense genes along with pathogenesis-related protein-1a (PR-1a). The expressions of defense genes increased 2.5?3.5 folds in resistant eggplant cultivars after pathogen inoculation. The biochemical and molecular markers provided an insight to understand the first line of defense responses in eggplant cultivars upon inoculation with the pathogen.     

番茄抗青枯病基因的AFLP分子标记

用番茄高抗青枯病品种“T51A”与高感青枯病品种“T9230”配制杂交组合,接种鉴定其正反交Ｆ₁代及Ｆ₂代分离群体的青枯病发生情况。结果表明,T51A对青枯病的抗性属于细胞质遗传,受1对杂合基因加性控制。用64个EcoRＩ/ＭseＩ引物组合对“T51A”、“T9230”两个亲本及其Ｆ₂代抗病和感病基因池进行AFLP分析,共扩增出约4200条可分辨的带,其中2条为稳定的差异。用“T51A”和“T9230”杂交产生的Ｆ₂代分离群体对2个特异条带与目的基因的遗传连锁性进行分析,发现特异条带AAG/CAT与暂定名为RRS-342的抗青枯病基因紧密连锁,二者之间的遗传距离为6.7 cM。将AAG/CAT片段回收、克隆和测序,成功地将其转化为SCAR标记,可以更加方便地用于对番茄青枯病基因的标记辅助选择。      

Characterization of the interaction between the bacterial wilt pathogen Ralstonia solanacearum and the model legume plant Medicago truncatula

The soilborne pathogen Ralstonia solanacearum is the causal agent of bacterial wilt and attacks more than 200 plant species, including some legumes and the model legume plant Medicago truncatula. We have demonstrated that M. truncatula accessions Jemalong A17 and F83005.5 are susceptible to R. solanacearum and, by screening 28 R. solanacearum strains on the two M. truncatula lines, differential interactions were identified. R. solanacearum GMI1000 infected Jemalong A17 line, and disease symptoms were dependent upon functional hrp genes. An in vitro root inoculation method was employed to demonstrate that R. solanacearum colonized M. truncatula via the xylem and intercellular spaces. R. solanacearum multiplication was restricted by a factor greater than 1 x 10(5) in the resistant line F83005.5 compared with susceptible Jemalong A17. Genetic analysis of recombinant inbred lines from a cross between Jemalong A17 and F83005.5 revealed the presence of major quantitative trait loci for bacterial wilt resistance located on chromosome 5. The results indicate that the root pathosystem for M. truncatula will provide useful traits for molecular analyses of disease and resistance in this model plant species.     

茄子栽培种砧用种质农业生物学性状及嫁接适用性研究

青枯病是热带亚热带地区普遍发生的一种土传病害,为选配具有优良抗病性和嫁接适用性的茄子砧木杂交组合,该研究对国内外11份茄子栽培种砧用种质进行农业生物学评价和青枯病抗病性鉴定,研究了不同砧用种质对嫁接苗生长的影响。结果表明:供试砧用种质中,果型为卵圆形5份、倒卵形2份、长卵圆4份;幼果颜色紫色7份、淡紫色1份、绿色1份、淡绿色2份;老熟果实颜色均为黄色;种质J14、J15、J16、J17的主茎紫色,其余均为绿色;J61的花瓣白色,其余均为紫色或淡紫色。供试砧木种质与接穗Rf的嫁接成活率均在80%以上,最高达97%。采用苗期伤根-浸根接种法鉴定砧木种质对青枯病的抗病性,有9份砧用种质自根苗表现高抗(HR),病情指数为3.67~12.33,其中6份砧木种质(BC01、BC03、BC04、BC06、J15、J16)嫁接感病接穗后表现抗病(R),病情指数为16.67~21.00。砧用种质能显著改善接穗的生长,其中,BC01、BC03、BC04、BC06、J15、J16的嫁接苗的生物量增长率显著高于其他种质的嫁接苗。综合试验结果显示茄子栽培种砧用种质农业生物学性状表现多样性,可区分为不同生态类型。抗病砧木种质嫁接高感病接穗的防病效果显著,种质BC01、BC03、BC04、BC06、J15、J16高抗青枯病,嫁接高感病品种表现抗青枯病,可作为配制抗青枯病砧木杂交组合的候选亲本。     

外源24-表油菜素内酯对高温胁迫下茄子幼苗生长和抗氧化系统的影响

本文研究了高温胁迫下外源24-表油菜素内酯（EBR）对茄子幼苗生长和抗氧化系统的影响。结果表明,外源EBR处理显著促进了高温胁迫下茄子幼苗生长,提高了SOD、POD、CAT和APXS活性,AsA和GSH含量及可溶性蛋白和脯氨酸含量,降低了MDA、O2^-及H2O含量。表明,外源EBR处理通过促进高温胁迫下茄子幼苗抗氧化酶活性、抗氧化剂含量及渗透调节物质的提高,降低ROS水平,缓解高温胁迫对茄子幼苗生长的抑制作用,增强植株抗高温胁迫的能力。     

Arabidopsis local resistance to Botrytis cinerea involves salicylic acid and camalexin and requires EDS4 and PAD2, but not SID2, EDS5 or PAD4

Salicylic acid (SA) is an important regulator of plant defense responses, and a variety of Arabidopsis mutants impaired in resistance against bacterial and fungal pathogens show defects in SA accumulation, perception, or signal transduction. Nevertheless, the role of SA-dependent defense responses against necrotrophic fungi is currently unclear. We determined the susceptibility of a set of previously identified Arabidopsis mutants impaired in defense responses to the necrotrophic fungal pathogen Botrytis cinerea. The rate of development of B. cinerea disease symptoms on primary infected leaves was affected by responses mediated by the genes EIN2, JAR1, EDS4, PAD2, and PAD3, but was largely independent of EDS5, SID2/ICS1, and PAD4. Furthermore, plants expressing a nahG transgene or treated with a phenylalanine ammonia lyase (PAL) inhibitor showed enhanced symptoms, suggesting that SA synthesized via PAL, and not via isochorismate synthase (ICS), mediates lesion development. In addition, the degree of lesion development did not correlate with defensin or PR1 expression, although it was partially dependent upon camalexin accumulation. Although npr1 mutant leaves were normally susceptible to B. cinerea infection, a double ein2 npr1 mutant was significantly more susceptible than ein2 plants, and exogenous application of SA decreased B. cinerea lesion size through an NPR1-dependent mechanism that could be mimicked by the cpr1 mutation. These data indicate that local resistance to B. cinerea requires ethylene-, jasmonate-, and SA-mediated signaling, that the SA affecting this resistance does not require ICS1 and is likely synthesized via PAL, and that camalexin limits lesion development.     

Genetic mapping of a major dominant gene for resistance to Ralstonia solanacearum in eggplant

Resistance of eggplant against Ralstonia solanacearum phylotype I strains was assessed in a F₆ population of recombinant inbred lines (RILs) derived from a intra-specific cross between S. melongena MM738 (susceptible) and AG91-25 (resistant). Resistance traits were determined as disease score, percentage of wilted plants, and stem-based bacterial colonization index, as assessed in greenhouse experiments conducted in Réunion Island, France. The AG91-25 resistance was highly efficient toward strains CMR134, PSS366 and GMI1000, but only partial toward the highly virulent strain PSS4. The partial resistance found against PSS4 was overcome under high inoculation pressure, with heritability estimates from 0.28 to 0.53, depending on the traits and season. A genetic map was built with 119 AFLP, SSR and SRAP markers positioned on 18 linkage groups (LG), for a total length of 884 cM, and used for quantitative trait loci (QTL) analysis. A major dominant gene, named ERs1, controlled the resistance to strains CMR134, PSS366, and GMI1000. Against strain PSS4, this gene was not detected, but a significant QTL involved in delay of disease progress was detected on another LG. The possible use of the major resistance gene ERs1 in marker-assisted selection and the prospects offered for academic studies of a possible gene for gene system controlling resistance to bacterial wilt in solanaceous plants are discussed.