Shiva A 基因在转基因烟草中的表达及其对烟草青枯病菌(Pseudomonas solanacearum pv tabaci)的抗性

利用农杆菌介导的方法转化烟草外植体,通过抑菌圈实验和试管苗抗菌能力鉴定实验,表明表达采用植物偏爱密码子人工合成的抗菌肽Shva A基因的转基因烟草植株对烟草青枯病的抗病性上升。其中转基因植株Sc-4和Sc-6植株的R1代试管苗与对照植株相比较,它们的病情指数分别下降了42.1%和60.6%。     

黑胫病感染对烟草茎秆及根际土壤真菌群落结构的影响

烟草黑胫病是由寄生疫霉烟草变种引起的一种对烟草生产造成巨大经济损失的土传病害。本文以健康烟株与感染黑胫病烟株茎秆和根际土壤为研究对象,通过PCR技术扩增样本中真菌转录间隔区的ITS1区域,采用Illumina Miseq高通量测序技术对扩增片段进行测序,旨在了解黑胫病感染对于烟草茎秆和根际土壤真菌群落结构与多样性的影响。本研究20个测序样品,共获得755 599条高质量序列片段,最短序列为200bp,最长序列为356bp,平均序列长度248bp。结果表明,健康烟株和发病烟株根际土壤的优势真菌为子囊菌门Ascomycota、接合菌门Zygomycota和担子菌门Basidiomycota,所有茎秆样品的优势真菌为子囊菌门、担子菌门。健康烟株与感染黑胫病烟株根际土壤样品相对丰度大于1%的属有镰刀菌属Fusarium、被孢霉属Mortierella、隐球菌属Cryptococcus、链格孢属Alternaria和赤霉菌属Gibberella等,其中,健康烟株根际土壤优势属为镰刀菌属（39.35%）和被孢霉属（14.19%）,发病烟株根际土壤镰刀菌属和被孢霉属相对丰度分别为40.26%和20.77%;健康茎秆样品优势属为隐球菌属（31.12%）、链格孢属（18.28%）、镰刀菌属（15.67%）和红酵母属Rhodotorula（13.34%）;病健交界茎秆样品优势属为镰刀菌属（41.36%）、隐球菌属（28.15%）和链格孢属（22.32%）;发病茎秆优势属为隐球菌属（62.14%）和链格孢属（27.75%）。烟株感染黑胫病后,其根际土壤与茎秆样品真菌优势属种类与健康烟株无明显变化,但属水平的相对丰度变化显著。发病烟株茎秆与根际土壤样品真菌群落Sobs、Chao1、Shannon指数较健康烟株降低,Simpson指数上升,表明烟株发病后根际土壤真菌与茎秆内生真菌群落丰富度与多样性降低。该结果对于研究烟草黑胫病发生的微生态机制及其生物防治具有一定的理论指导意义。     

Transgenic tobacco plants expressing a coat protein gene of tobacco mosaic virus are resistant to some other tobamoviruses

Transgenic tobacco plants expressing the coat protein (CP) gene of tobacco mosaic virus were tested for resistance against infection by five other tobamoviruses sharing 45-82% homology in CP amino acid sequence with the CP of tobacco mosaic virus. The transgenic plants (CP+) showed significant delays in systemic disease development after inoculation with tomato mosaic virus or tobacco mild green mosaic virus compared to the control (CP-) plants, but showed no resistance against infection by ribgrass mosaic virus. On a transgenic local lesion host, the CP+ plants showed greatly reduced numbers of necrotic lesions compared to the CP- plants after inoculation with tomato mosaic virus, pepper mild mottle virus, tobacco mild green mosaic virus, and Odontoglossum ringspot virus but not ribgrass mosaic virus. The implications of these results are discussed in relation to the possible mechanism(s) of CP-mediated protection.     

表达多肽抗生素apidaecin的转基因烟草及其抗病性的初步分析

将多肽抗生素apidaecin基因与病程相关蛋白的信号肽序列融合,构建了apidaecin的分泌型植物表达载体、apidaecin与另一多肽抗生素Shiva\|I的双价分泌型植物表达载体,以本实验室原来构建的Shiva-I分泌型植物表达载体做对照,转化了模式植物烟草。对3种转基因植物进行了分子检测,转化再生苗95%为PCR阳性,Southern杂交结果进一步证明外源基因已经整合到了烟草基因组中,RT-PCR检测表明外源基因可以在转基因烟草内正常转录。对T0代转基因烟草进行烟草野火病的抗病性实验,从3种转基因烟草中都得到了抗病植株,病情指数分析的初步结果显示,双价转基因烟草抗病性最好,apidaecin的次之,Shiva-I的最差。     

转基因烟草的大田抗病性分析

为了尽快地将抗病转基因烟草品种应用于生产,在选育抗病优良株系的同时,进行了转基因株系的大田抗病性鉴定。结果表明：（１）在田间自然发病情况下,转基因烟草的ＮＣ８９各株系的发病率及病情指数显著低于对照ＮＣ８９,对ＣＭＶ的相对防治效果为５５％－７０％,表现较强的抗病性;同时对ＴＭＶ也有一定的抗病力;（２）转基因烟草的产量、产值也明显高于对照。     

陕西省烟草灰霉病病原及云芝多糖对其防治研究

采用形态学观察和分子鉴定方法对2011年在陕西省发生的一种烟草未知病害的病原菌进行鉴定。从病叶组织分离纯化得到病原菌,通过致病性测定以及人工接种后再分离病菌,证明编号LJL007的菌株为该病的致病菌。依据病原菌的形态学和培养特征,将菌株LJL007鉴定为灰葡萄孢Botrytis cinerea Pers.,其有性型为富氏葡萄孢盘菌Botryotinia fuckeliana Whetzel。通过核糖体DNAITS序列分析,分离菌株LJL007序列(登录号:HM17900)与富氏葡萄孢盘菌序列(登录号:HM849615)同源性达100%,进一步证明该病原菌是灰葡萄孢Botrytis cinerea。云芝多糖在离体条件下,对灰葡萄孢的菌丝生长和孢子萌发均无直接抑制作用。云芝多糖对烟草灰霉病有较好预防保护作用,其预防效果可达56.29%。云芝多糖可显著提高烟草体内几丁质酶和β-1,3-葡聚糖酶活性,其活性峰值分别比对照提高56.89%和429.83%,说明云芝多糖可诱导植物产生抗病性。     

一株内生砖红镰刀菌促进烟草生长和增强青枯病抗性

课题组前期报道了一株对马铃薯具有促生防病作用的内生砖红镰刀菌Fusarium lateritium (FL617)。为拓展该菌株的应用范围,本研究以同为茄科作物的烟草为研究对象,探究了砖红镰刀菌对其生长和抗病的影响。结果表明,与对照组相比,处理组叶表面积、主根数、叶片数、叶绿素a和叶绿素b含量分别提高了5.0、3.9、1.4、1.3和1.3倍;该结果表明砖红镰刀菌对烟草具有促生作用。生测结果表明,砖红镰刀菌增强了烟草对青枯病的抗病性,其青枯病病情指数下降约30%。植物激素合成相关基因表达模式分析,发现处理组植物激素合成相关基因表达显著上调(1.6-39.9倍);用青枯病菌Ralstonia solanacearum感染寄主植物后分析其水杨酸(SA)、茉莉酸(JA)和R基因信号相关基因的转录模式,发现与对照组相比,处理组SA、JA相关基因均显著上调(1.2-8.3倍),仅有一个R基因显著下调(50%)。进一步用GFP标记的菌株进行荧光定殖观察,发现植物根系周围簇生着带有绿色荧光信号的真菌菌丝,表明砖红镰刀菌可以定殖于烟草根系。综上所述,推测砖红镰刀菌F. lateritium能够通过定殖于烟草根系介导植物激素、免疫防御相关基因的表达从而影响植株的生长发育和抗病性。     

烟草内生细菌防治烟草黑胫病及促生作用研究

筛选烟草内生细菌防治烟草黑胫病,获得了对烟草黑胫病有很好防效的内生细菌118、57和93等菌株.在温室控病实验中它们的防效分别可达69.23%、61.53%和65.38%.118菌株对烟草疫霉(Phytophthora parasitica var.nicotianae)菌丝生长有明显的拮抗作用.118菌株具有较广的抗菌谱,且对烟草有促生效果,烟草的鲜重增产率为13.10%.     

番茄转录调控因子基因Pti5植物表达载体的构建及其转化烟草的研究 Construction of a Plant Expression Vector with Tomato Transcription Factor Gene Pti5 and Studies on Transgenic Tobaccos

本实验构建了含有CaMV35S启动子控制下的Pti5-VP16基因的植物双元表达载体pBI121UCH1。通过根癌农杆菌叶盘转化法,将Pti5-VP16基因导入烟草SRI中,经卡那霉素筛选,获得了抗性植株。经PCR和Southern印迹分析,表明抗性植株中整合了Pti5-VP16基因,经抗病性鉴定转基因烟草植株的抗病性明显提高。 Abstract:The plasmid pBI121UCH1 carrying Pti5-VP16 gene under the control of the cauliflower mosaic virus 35s promoter was constructed.Leaf segments of tobacco SRI were infected by Agrobacterium tumefaciens EHA105 with plasmid pBI121UCH1,from which kanamycin resistant plants were obtained.PCR and Southern analysis proved that the Pti5-VP16 gene was integrated into the genomes of the tobacco plants.The disease resistance assay showed that the disease resistance was enhanced in the transgenic tobacco plants.     

烟草内生细菌防治烟草黑胫病及促生作用研究

筛选烟草内生细菌防治烟草黑胫病, 获得了对烟草黑胫病有很好防效的内生细菌118、57和93等菌株。在温室控病实验中它们的防效分别可达69.23%、61.53%和65.38%。118菌株对烟草疫霉(Phytophthora parasitica var. nicotianae)菌丝生长有明显的拮抗作用。118菌株具有较广的抗菌谱, 且对烟草有促生效果, 烟草的鲜重增产率为13.10%。     

Symptom development and distribution of Tomato spotted wilt virus in flue-cured tobacco

Tomato spotted wilt virus (TSWV) is an economically important viral pathogen of flue‐cured tobacco, Nicotiana tabacum. Disease development and in planta distribution of TSWV were studied following mechanical inoculation of cv. K326 at various stages of growth. The effect of plant age on the disease development, distribution of symptoms and TSWV were studied by inoculating plants in five age groups, 40, 60, 75, 95 and 100 days after sowing (DAS). The plant age at the time of infection had no significant influence on the incidence of localised infection; however, it had a significant effect on the development of systemic symptoms and distribution of TSWV in the plant. In a higher proportion of plants (89.2%), no systemic symptoms developed when plants were inoculated at 60–100 DAS. However, 90% of plants became systemically infected when plants were inoculated at 40 DAS. The systemic symptom expression was severe and distributed in all the leaves in 40‐DAS plants, whereas in 60‐ to 100‐DAS plants, it was erratic and restricted only to a few upper leaves. Results show that plant age is an important factor for TSWV infection of tobacco and mature tobacco plants significantly reduced the systemic development of the disease.     

Transgenic tobacco plants which express thechiA gene fromSerratia marcescens have enhanced tolerance toRhizoctonia solani

We have prepared independent lines of transgenic tobacco plants which express high levels of theSerratia marcescens ChiA protein intracellulary or extracellularly (in glycosylated or unglycosylated forms). We have measured the susceptibility, of these plants toRhizoctonia solani infection in greenhouse trials and in the field. Transgenic tobacco plants which constitutively express theS. marcescens ChiA protein exhibit tolerance to the fungal pathogenR. solani. Disease tolerance is observed in transgenic tobacco plants which express the bacterial chitinase intra-or extracellulary. This is the first report to document disease reduction in the field in transgenic plants engineered for fungal disease tolerance.     

安徽烟草病毒类型及优势种初步研究

1978年,烟草病毒病在安徽烟区流行,导致凤阳县烟叶总产损失92.3％,引起了普遍震惊。1981—1984年作者对来自16个县、市552个病毒材料,经生物测定、血清反应、电镜观察,初步分离出CMV、TMV、PVY和PVX四种病毒。它们分别约占检测总数的82.79％、4.53％、2.54％和0.36％,其中CMV与长期视为优势种的TMV比值为18.3,除此,尚有约占检测总数9.8％的CMV和TMV、CMV和PVY复合侵染,以及不明类型的毒株。通过对田间烟草以及其他植物花叶病株的实际检测,进一步表明:CMV在烟区分布范围极广、出现频次最多,已形成了复杂的循环侵染系统,成为近期内烟草病毒病持续流行危害的首要毒原。     

Chloroisonicotinamide derivative induces a broad range of disease resistance in rice and tobacco

Systemic acquired resistance (SAR) is a potent innate immunity system in plants that is effective against a broad range of pathogens. SAR in dicotyledonous plants such as tobacco and Arabidopsis has been partially elucidated and is mediated by salicylic acid (SA). However, the SAR mechanism of monocotyledonous rice plants remains to be clarified, although some similarities between SAR mechanisms in both types have been reported. Here we have characterized N-cyanomethyl-2-chloroisonicotinamide (NCI) as an effective SAR inducer in both plant species. Soil drench application of NCI induces a broad range of disease resistance in tobacco and rice and, more specifically, PR gene expression in tobacco. Both SA measurements in wild-type NCI-treated tobacco and pathogenic infection studies using NahG transgenic tobacco plants indicate that NCI-induced resistance enhancement does not require SA. Therefore, it is suggested that NCI induces SAR by triggering signaling at the same level as or downstream of SA accumulation as do both benzo(1,2,3)thiadiazole-7-carbothioic acid S-methyl ester and 2,6-dichloroisonicotinic acid. The fact that all of these chemicals are effective in rice and tobacco suggests that several common components function in disease resistance in both plant species.     

Brassinosteroid functions in a broad range of disease resistance in tobacco and rice

Brassinolide (BL), considered to be the most important brassinosteroid (BR) and playing pivotal roles in the hormonal regulation of plant growth and development, was found to induce disease resistance in plants. To study the potentialities of BL activity on stress responding systems, we analyzed its ability to induce disease resistance in tobacco and rice plants. Wild-type tobacco treated with BL exhibited enhanced resistance to the viral pathogen tobacco mosaic virus (TMV), the bacterial pathogen Pseudomonas syringae pv. tabaci (Pst), and the fungal pathogen Oidium sp. The measurement of salicylic acid (SA) in wild-type plants treated with BL and the pathogen infection assays using NahG transgenic plants indicate that BL-induced resistance does not require SA biosynthesis. BL treatment did not induce either acidic or basic pathogenesis-related (PR) gene expression, suggesting that BL-induced resistance is distinct from systemic acquired resistance (SAR) and wound-inducible disease resistance. Analysis using brassinazole 2001, a specific inhibitor for BR biosynthesis, and the measurement of BRs in TMV-infected tobacco leaves indicate that steroid hormone-mediated disease resistance (BDR) plays part in defense response in tobacco. Simultaneous activation of SAR and BDR by SAR inducers and BL, respectively, exhibited additive protective effects against TMV and Pst, indicating that there is no cross-talk between SAR- and BDR-signaling pathway downstream of BL. In addition to the enhanced resistance to a broad range of diseases in tobacco, BL induced resistance in rice to rice blast and bacterial blight diseases caused by Magnaporthe grisea and Xanthomonas oryzae pv. oryzae, respectively. Our data suggest that BDR functions in the innate immunity system of higher plants including dicotyledonous and monocotyledonous species.     

Degeneration of hrpZ gene in Pseudomonas syringae pv. tabaci to evade tobacco defence: an arms race between tobacco and its bacterial pathogen

The HrpZ harpin of Pseudomonas syringae is known to induce a hypersensitive response (HR) in some plants. In P. syringae pv. tabaci (Pta), the harpin gene hrpZ has been spontaneously disrupted by an internal deletion in its open reading frame and a frame shift. The loss of the ability of the recombinant harpin polypeptide of Pta to induce HR despite the high sensitivity of tobacco plants to harpin led us to investigate the meaning of the disrupted hrpZ gene in the virulence of Pta 6605. The hrpZ gene from P. syringae pv. pisi was introduced into wild-type (WT) Pta. The hrpZ-complemented Pta secreted harpin into the culture medium, but failed to cause disease symptoms by both infiltration and spray inoculation. Inoculation with the hrpZ-complemented Pta induced defence responses in tobacco plants, whereas the defence responses of tobacco plants were not prominent on inoculation with WT Pta. These results indicate that an ancestor of Pta might have disrupted hrpZ by an internal deletion to evade plant defences and confer the ability to cause disease in tobacco plants.     

Identification of Natural Diterpenes that Inhibit Bacterial Wilt Disease in Tobacco, Tomato and Arabidopsis

The soil-borne bacterial pathogen Ralstonia solanacearum invades a broad range of plants through their roots, resulting in wilting of the plant, but no effective protection against this disease has been developed. Two bacterial wilt disease-inhibiting compounds were biochemically isolated from tobacco and identified as sclareol and cis-abienol, labdane-type diterpenes. When exogenously applied to their roots, sclareol and cis-abienol inhibited wilt disease in tobacco, tomato and Arabidopsis plants without exhibiting any antibacterial activity. Microarray analysis identified many sclareol-responsive genes in Arabidopsis roots, including genes encoding or with a role in ATP-binding cassette (ABC) transporters, and biosynthesis and signaling of defense-related molecules and mitogen-activated protein kinase (MAPK) cascade components. Inhibition of wilt disease by sclareol was attenuated in Arabidopsis mutants defective in the ABC transporter AtPDR12, the MAPK MPK3, and ethylene and abscisic acid signaling pathways, and also in transgenic tobacco plants with reduced expression of NtPDR1, a tobacco homolog of AtPDR12. These results suggest that multiple host factors are involved in the inhibition of bacterial wilt disease by sclareol-related compounds.     

Establishing a Corky Ringspot Disease Plot for Research Purposes

A method to establish two experimental corky ringspot disease (CRS) plots that had no prior CRS history is described. CRS is a serious disease of potato in the Pacific Northwest caused by tobacco rattle virus (TRV) and transmitted primarily by Paratrichodorus allius. ‘Samsun NN’ tobacco seedlings were inoculated with viruliferous P. allius in the greenhouse before they were transplanted into the field soil at the rate of 3,000 plus seedlings/ha. Care was taken to keep soil around plants in the greenhouse and transplants in the field moist to avoid vector mortality. The vector population in the soil of one of the fields was monitored by extraction, examination under microscope and bioassay on tobacco seedlings to ascertain that they were virus carriers. Presence of virus in tobacco bioassay plants was determined by visual symptoms on tobacco leaves and by testing leaves and roots using ELISA. Although TRV transmission was rapid, there was loss of infectivity in the first winter which necessitated a re-inoculation. After two years of planting infected tobacco seedlings, 100% of soil samples collected from this field contained viruliferous P. allius. In the second field, all five commercial potato cultivars, known to be susceptible, expressed symptoms of CRS disease indicating that the procedure was successful.     

Induction of systemic resistance in tobacco against Tobacco mosaic virus by Bacillus spp.

Bacillus pumilus strain EN16 and Bacillus subtilis strain SW1 were tested for their systemic resistance and protection abilities against tobacco mosaic virus disease under greenhouse conditions. The results showed that strain EN16 and SW1 treatment significantly reduced mosaic symptoms and disease severity, resulting in 52 and 71% protection at 14 days of inoculation, respectively. A decreased amount of virus was detected in EN16- or SW1-treated tobacco plants by ELISA. Moreover, 5- and 7-day intervals between inducer treatment and pathogen inoculations were respectively required for strain EN16 and SW1 to induce optimal resistance. Further analysis on phenylalanine ammonia-lyase, peroxidase, polyphenol oxidase and pathogenesis-related (PR) proteins in tobacco showed that the amounts of defense enzymes and PR proteins significantly increased in Bacillus-treated plants challenged with pathogen when compared to control.