抗菌肽和几丁质酶基因提高烟草对黑胫病菌和赤星病菌的抗性研究

 通过农杆菌介导法将加信号肽修饰的人工合成杂合抗菌肽CEMA基因(SPCEMA),苜蓿防御素基因(AFP),苦瓜几丁质酶基因(CHI)以及SPCEMA-CHI、AFP-CHI、AFP-SPCEMA双价基因导入本明烟(Nicotiana benthamiana),并对转基因烟草T₀和T₁代进行了抗病性检测,比较了不同转基因植株的抗病效果。研究结果表明,转基因烟草对黑胫病菌(Phytophthora parasitica var.nicotianae)、赤星病菌(Alternaria alternata)的抗性均强于非转基因烟草,病情指数差异达极显著水平,其中转AFP-CHI双价基因烟草具有较强的抗性,与单价转基因烟草的抗性差异达显著水平。但各单价转基因以及双价转基因烟草之间对上述病菌并未表现出显著的抗病性差异。结果表明植物源的抗菌肽基因与几丁质酶基因在抗植物真菌病害中具有协同增效作用。     

化学合成的几丁寡糖及其结构类似物诱导烟草对黑胫病抗性研究

 为了探讨寡糖诱导物的分子结构与诱导抗病性之间的相互关系,以7个化学合成的寡糖为诱导物,研究了烟草植株对黑胫病的诱导抗性。结果表明,β-1,3-乙酰氨基葡聚四糖、β-1,4-乙酰氨基葡聚三糖和β-1,4-乙酰氨基葡聚四糖的诱导处理对烟草黑胫病表现活体抗性,相对诱导效果分别为62.5%,50.0%和75.0%;β-1,3-乙酰氨基葡聚四糖、β-1,4-乙酰氨基葡聚三糖和β-1,4-乙酰氨基葡聚四糖的诱导处理对烟草黑胫病表现离体抗性,相对诱导效果分别为56.25%,50.0%和62.5%。研究结果表明寡糖的聚合度以及寡糖主链的糖苷键连接方式可能是影响诱导抗病性的重要因子,不同浓度寡糖处理后烟草的诱导抗病性有差异。     

烟草诱抗物质与微生物菌剂对烟草黑胫病的影响

在4年烟草连作的黑胫病高发地块,施加水杨酸、核黄素以及活性硅3种诱抗物质,并用枯草芽孢杆菌灌根,探究烟草免疫诱抗物质与微生物菌剂协同作用条件下,对烟草生长和黑胫病的影响。结果表明,各个处理虽在某个时期的某些单项指标上有一些差异,但各处理农艺性状与其他处理没有显著差异;添加菌剂处理的黑胫病发病率和病情指数明显较低,说明枯草芽孢杆菌对黑胫病的控制效果明显。其中,添加诱抗物质核黄素和水杨酸菌剂的处理对黑胫病的控制效果优于单纯施用菌剂的处理,可见这两种诱抗物质可以与菌剂协同作用于黑胫病的控制。     

烟草黑胫病诊断中值得商榷的几个问题

随着烟叶生产中感病特色品种的持续种植,原有抗病品种抗性丧失,加之烟苗移栽苗龄小、抗病性弱,烟草黑胫病在局部地区严重发生,但其田间诊断技术难以适应防控需求。本文辨析了烟草黑胫病、根黑腐病和青枯病的区别,提出了还苗期至伸根期黑胫病与青枯病的诊断和处置方法,分析了整株系统性叶片局部枯斑枯焦的病因以及"黑杆"病症剖析等实例,提出田间症状识别等传统诊断技术与免疫学诊断技术、分子生物学诊断技术等专项检测相结合,比对与排除获得诊断结论是烟草黑胫病诊断的关键技术与方法。     

二氢茉莉酸丙酯诱导烟草抗黑胫病作用研究

研究了二氢茉莉酸丙酯(PDJ)对烟草黑胫病的控制作用,结果表明:离体条件下,PDJ对烟草黑胫病Phytophthora parasitica Var. nicotianae的菌丝生长、孢子囊产生、游动孢子释放及萌发均无明显的抑制作用;PDJ处理后显著减轻了烟草幼苗黑胫病的病情,其最佳处理浓度为100 mg/L,最佳处理时间是接种前3 d,持效期在15 d以上;并且PDJ 100 mg/L处理烟苗下部第3片叶后,可使上部未处理叶片病情显著减轻。表明PDJ诱导了烟草幼苗对黑胫病的抗性。     

水杨酸不同施用方式对诱导烟草抗病性的影响

本研究比较了以0.25、0.50和0.75mol/L水杨酸(SA)进行喷施、穿刺和化学农药防治烟草病害对田间烟草抗病性的影响。结果表明:外源喷施SA和吸附SA插签两种给药方式均能诱导烟草产生对烟草番茄斑萎病、黑胫病、普通花叶病、野火病和赤星病的抗性。SA诱导的抗性具有广谱性,且防效随着施用浓度的增加而增加,在0.75mol/L时达到最大。相同浓度下,SA穿刺处理对烟草的抗性诱导较喷施处理更佳。处理后,随时间的推移,喷施SA处理抗性诱导呈逐渐降低的趋势,而SA穿刺处理,对烟株的抗性诱导作用在处理后第20~30天达到最大,在后期对烟草番茄斑萎病、野火病以及赤星病的抗性诱导作用显著高于对照(P0.05)。综合分析表明,SA穿刺施药技术对烟株病害具有广谱性、持久性以及安全性等特点,能保持高抗性诱导作用40d以上,并能有效减少农药使用量和次数,降低烟叶原料农药残留,具有较好的推广应用价值。     

转隐地蛋白基因烟草的抗病性及遗传分析

 对转隐地蛋白(Cryptogein)基因烟草植株进行了抗病性测定、抗病分子机理及遗传分析的研究。结果表明:80%以上的转基因植株对烟草上3种重要病原菌的抗病性均增强,且能稳定遗传;转基因烟草植株的抗病性与整合的拷贝数成负相关,即绝大多数高度抗病的植株只含有1个拷贝,而感病植株一般为2~3个拷贝;部分转基因烟草植株Northern杂交分析表明:病程相关蛋白和渗透调节蛋白等防卫反应相关基因的表达丰度与转基因植株的抗病性存在着一定的正相关性,表达丰度越高,抗病性越强;综合农艺性状考察表明Cryptogein基因对烟草植株的生长有显著的促进作用。     

青霉菌灭活菌丝体诱导烟草对黑胫病的抗性研究

以青霉菌灭活菌丝体(Drymycelium of Penicillium chrysogenum,DMPC)作为有机肥进行了诱导烟草抗黑胫病的温室试验.研究结果表明,烟草经青霉菌灭活菌丝体诱导处理后,其黑胫病发病率及病情指数明显降低,防治效果明显,而且防治效果与青霉菌灭活菌丝体浓度及处理时间有关;烟草过氧化物酶(POD)和多酚氧化酶(PPO)等2种细胞防御酶活性提高,对黑胫病的抗性增强.     

水杨酸诱导车前草抗菌核病研究

车前草苗经水杨酸处理后,接种菌核病菌（Sclerotinia sclerotiorum）。结果表明：5.0mmol/L水杨酸对菌核病菌无抑制作用;0.01,0.1,1.0,3.0,5.0mmol/L五种不同浓度水杨酸处理车前草苗时,0.1mmol/L水杨酸诱导车前草抗菌核病效果比其他浓度要好,其持续时间需要3 d才表现出诱导抗病性。     

化学合成寡糖诱导烟草抗黑胫病的初步研究

 抑菌测定和盆栽试验表明:化学合成的Lewis^x和Lewis^a寡糖对烟草黑胫病病原菌菌丝生长无明显影响;Lewis^x五糖和七糖处理烟草,可使烟草植株产生对黑胫病菌(Phytophthora nicotianae)的抗性,在处理浓度0~10μg/m L内,随着浓度增高诱导效果增强,当浓度达10 μg/m L时,诱导防病效果达90%以上。Lewisx七糖处理,可导致烟草叶片过氧化物酶(POD)、多酚氧化酶(PPO)和苯丙氨酸裂解酶(PAL)等防卫酶活性不同程度地提高,PPO、POD及PAL分别在处理后第4d、第6d和第8d达到最大值,比对照分别增加了70.7%、150.0%和142.8%。     

Differential production of parasiticein, an elicitor of necrosis and resistance in tobacco, by isolates of Phytophthora parasitica

Fifteen isolates of Phytophthora parasitica , nine from tobacco (causing black shank disease) and six from other host plants, were compared by root inoculation with regard to their pathogenicity to young tobacco plants. A progressive invasion of the aerial parts over 1 week was observed only with the black shank isolates, while the non-tobacco isolates induced leaf necrosis within 2 days. Similar necrosis occurred when the roots of tobacco plants were dipped in diluted culture filtrates from non-tobacco isolates, but not in those from tobacco isolates. The necrosis-inducing filtrates were shown to contain a c. 10-kDa protein band which was not present in the other filtrates. This protein (named parasiticein) was purified by ion-exchange chromatography to homogeneity in SDS-PAGE and reverse-phase HPLC. Parasiticein was serologically related to cryptogein, a member of the elicitin family of proteinaceous elicitors previously described from other Phytophthora species. Like the other elicitins, parasiticein induced necrosis in tobacco plants and protected them against black shank. It most closely resembled capsicein in being acidic and in inducing resistance at concentrations (10–100 μg per plant) that caused little leaf necrosis. It is suggested that the absence of parasiticein production by the black shank isolates might be a factor involved in their specific pathogenicity to tobacco.     

The salicylic acid-dependent defence pathway is effective against different pathogens in tomato and tobacco

The role of salicylic acid (SA) was investigated in basal defence and induced resistance to powdery mildew ( Oidium neolycopersici ) and grey mould ( Botrytis cinerea ) in tomato ( Lycopersicon esculentum ) and tobacco ( Nicotiana tabacum ). A comparison of NahG transgenic tomato and tobacco (unable to accumulate SA) to their respective wild types revealed that in tomato, SA was not involved in basal defence against O. neolycopersici but NahG tobacco showed an enhanced susceptibility to O. neolycopersici infection, the effect becoming more obvious as the plants grew older. In contrast, SA played no role in the basal defence of tobacco against B. cinerea , but seemed to contribute to basal defence of tomato against B. cinerea. Activation of the SA-dependent defence pathway via benzothiadiazole (BTH) resulted in induced resistance against O. neolycopersici in tobacco but not in tomato. Microscopic analysis revealed that BTH treatment could prevent penetration of the Oidium germ tube through tobacco leaves, whereas penetration was successful on tomato leaves irrespective of BTH treatment. In contrast, soil or leaf treatment with BTH induced resistance against B. cinerea in tomato but not in tobacco. It is concluded that the SA-dependent defence pathway is effective against different pathogens in tomato and tobacco.     

Evaluating diverse systems of tobacco genetic resistance to Phytophthora nicotianae in Yunnan,China

Black shank, caused by the soilborne pathogen Phytophthora nicotianae, is one of the most devastating diseases affecting tobacco production in China. The most effective strategy for reducing economic loss from this pathogen is development and use of resistant tobacco varieties. Multiple sources and systems of resistance have been developed in the Western Hemisphere; however, populations of P. nicotianae are variable around the world, including the predominance of different races. Different P. nicotianae isolates may react differently on tobacco plants with different systems of resistance, a possibility that could complicate the breeding of cultivars with resistance that is effective in different tobacco production regions worldwide. The objective of this research was to evaluate an array of tobacco germplasm possessing different systems of genetic resistance to black shank disease in tobacco-growing regions of Yunnan, China. Resistance types included simply inherited resistance mechanisms introgressed from wild Nicotiana relatives and polygenic partial resistance systems of N. tabacum origin. The loci of Wz exhibited high level resistance to black shank in the five diverse disease environments in Yunnan, China. K326 Php/−Wz/− genotype and Beinhart 1000 exhibited the greatest levels of resistance in both 2015 and 2016. Field observed results for 13 tobacco genotypes were highly correlated with those tested in growth chamber evaluation. These findings suggest that both Wz− and Beinhart 1000-mediated resistance have important commercial value in flue-cured tobacco breeding programmes in China. Cultivars developed for black shank resistance in China may also have utility in other tobacco-growing areas.     

氟噻唑吡乙酮对烟草疫霉的室内毒力及对烟草黑胫病的防效研究

烟草黑胫病是由烟草疫霉引起的一种土传性真菌病害, 对烟叶生产造成严重的危害。为了探究氟噻唑吡乙酮对烟草黑胫病的防治效果, 在室内离体条件下测定其对烟草疫霉菌丝生长、孢子囊形成的抑制作用;并通过室内盆栽和大田试验评价氟噻唑吡乙酮对烟草黑胫病的防治效果及对烟草的安全性。结果表明, 氟噻唑吡乙酮对各个地区烟草疫霉菌丝生长和孢子囊形成的抑制效果均很好, 与其他对照药剂相比, 毒力较高, EC 50分别为0.000 5 mg/L和0.000 4 mg/L。室内盆栽试验结果表明, 10%氟噻唑吡乙酮可分散油悬浮剂4 000倍液对烟草黑胫病的防效为84.33%, 2 000倍液防效则达到了96.00%, 与对照药剂相比有显著差异。田间药效试验结果表明, 10%氟噻唑吡乙酮可分散油悬浮剂2 000、3 000、4 000倍液的防效分别达到了93.82%、90.18%和83.27%, 对照药剂80%烯酰吗啉水分散粒剂2 500倍液和80%代森锰锌可湿性粉剂600倍液防效分别为77.82%和75.27%。此外, 相比于对照药剂, 氟噻唑吡乙酮在株高、有效叶片数、叶长、叶宽和光合速率方面有更好的促进作用。本研究结果表明, 氟噻唑吡乙酮能够有效防治烟草黑胫病, 并在一定程度上可以提高烟草产量和品质。     

大豆凝集素基因lec-s转化烟草>增强对烟草花叶病毒的抗性

 将编码大豆凝集素的lec-s基因插入植物表达载体pBI121中,构建植物重组表达质粒pBI121:: lec-s。由根癌土壤杆菌EHA105介导的叶盘法转化烟草,获得了转基因烟草株系。PCR和RT-PCR检测证明lec-s基因已转入烟草植株中。接种烟草花叶病毒（Tobacco mosaic virus,TMV）进行抗病性试验结果表明,转基因烟草叶片上的病斑数显著减少,说明转基因烟草表现出对TMV的抗性。定量RT-PCR检测发现,接种TMV后,抗病防卫基因（PR-1a、GST1、Pal和hsr515）在转基因烟草叶片中显著上调表达。这些结果表明,大豆凝集素基因lec-s转化烟草可对TMV产生抗性,其作用机制可能在于lec-s基因参与了植物的防卫信号通路,诱导了抗病防卫基因在转基因植株体内的表达,增强了植株对TMV的系统抗性。     

烟草黑胫病和根黑腐病生防假单胞杆菌的筛选与鉴定

为获得对烟草黑胫病和根黑腐病具有双重防病效果且能够促进烟草生长的假单胞杆菌,采用稀释涂布法从40份土壤样品中分离出201株细菌,通过平板对峙和含毒介质法,筛选出对烟草黑胫病和烟草根黑腐病病原菌均具有良好拮抗作用的菌株PA2101和PG3402。盆栽促生试验表明,菌株PA2101和PG3402能协调地改善烟草地上部分的生长和烟草根系发育,均在一定程度上增加了烟草的株高、叶面积、株鲜重、根鲜重、叶片数和根长,提高了烟草的根冠比和根活力。盆栽试验结果表明,菌株PA2101对烟草黑胫病和根黑腐病的防效分别为70.11%和62.67%,均高于其对照药剂;菌株PG3402对两种病害的防效分别为60.92%和60.00%,与对照药剂相当。抗性标记菌株的定殖试验结果表明,菌株PA2101和PG3402在接种后第29 d能定殖于烟草根际土壤和根内,在烟草茎和叶内也能长时间存在,表明两菌株能够良好定殖。16Sr DNA序列、菌落形态和生理生化性状分析表明,菌株PA2101为铜绿假单胞杆菌Pseudomonas aeruginosa,菌株PG3402为格拉纳达假单胞杆菌Pseudomonas granadensis。综上所述,菌株PA2101和PG3402对烟草具有良好的促生作用,并对烟草黑胫病和根黑腐病有较好的防病效果,是具有生防潜力的菌株。     

多粘类芽胞杆菌LB-9的诱变及抑菌防病效果研究

为获得对烟草疫霉菌生防效果更佳的拮抗菌株,对多粘类芽胞杆菌LB-9进行基因诱变。利用原生质体电转化法,构建了菌株LB-9的Tn-5转座插入突变体库,获得约2000个转化子,通过平板对峙法筛选出对烟草疫霉菌拮抗能力增强且效果稳定的突变菌株3个,其中编号为A13的突变菌株对烟草疫霉菌的抑制效果达到80%以上,与原始菌株LB-9的抑菌率相比提高了20%以上。采用室内盆栽接种法研究了正突变菌株A13对烟草黑胫病的防控效果,并利用实时荧光定量PCR法初步分析了其诱导烟株体内抗病相关基因的表达。结果表明,正突变菌株A13处理烟株7 d后,对烟草黑胫病的防效高于原始菌株LB-9,防效可达80%以上,同时可诱导烟株体内不同信号通路中抗性相关基因的上调表达。本研究为多粘类芽胞杆菌插入诱变育种方法研究提供了理论支撑,对烟草黑胫病的生物防治具有重要意义。