甘肃省定西市当归“水烂病”病原鉴定及致病性测定

水烂病是甘肃省当归上发生的一种病害.本试验对水烂病病原菌的形态特征、培养特性、生理生化指标进行了测定,同时结合16SrDNA序列测定和相似性比对,发现该病原菌与GenBank数据库已知荧光假单胞杆菌第2生物型(Pseudornonas fluorescens生物型Ⅱ)的序列相似性达99％,其片段大小为1445 bp,编号为ZB1.致病性测定结果表明,该病原菌对‘岷归2号’(新繁品种)致病力最强,‘岷归1号’(主栽品种)次之,对‘朝鲜当归’(引进品种)的致病力最弱.本研究首次报道了荧光假单胞杆菌第2生物型能引起当归水烂病.     

Use of real-time PCR to examine the relationship between disease severity in pea and <Emphasis Type="Italic">Aphanomyces euteiches</Emphasis> DNA content in roots

Aphanomyces euteiches causes severe root rot of peas. Resistance is limited in commercial pea cultivars. Real-time fluorescent PCR assay specific for A. euteiches was used to study the relationship between disease severity and pathogen DNA content in infected peas. Five pea genotypes ranging in levels of resistance were inoculated with five isolates of A. euteiches. Plants were visually rated for disease development and the amount of pathogen DNA in roots was determined using the PCR assay. The susceptible genotypes Genie, DSP and Bolero tended to have significantly more disease and more pathogen DNA than the resistant genotypes 90-2079 and PI 180693. PI 180693 consistently had less disease, while 90-2079 had the lowest amount of pathogen DNA. The Spearman correlation between pathogen DNA quantity and disease development was positive and significant (P < 0.05) for three isolates, but was not significant for two other isolates. This suggests that the real-time PCR assay may have limited application as a selection tool for resistance in pea to A. euteiches. Its utility as a selection tool would be dependent on the correlation between disease development and pathogen DNA content for a given pathogen isolate. The accuracy and specificity of the real-time PCR assay suggests considerable application for the assay in the study of mechanisms of disease resistance and the study of microbial population dynamics in plants.     

中华蚊母新病害鉴定及防治技术研究

运用柯赫氏法则对中华蚊母上发生的一种病害进行了验证,并在室内培养基上测试了4种常用杀菌剂(75％百菌清WP、80％多菌灵WP、70％代森锰锌WP和250 g/L阿米西达)对该病原菌的抑菌效果.结果表明:该病害为中华蚊母叶部的一种新病害;初步定为中华蚊母炭疽病,病原菌为半知菌亚门刺盘孢属的胶孢炭疽菌(Colletotrichum gloeosporioids).4种杀菌剂中,以75％百菌清WP抑菌效果最好,80％多菌灵WP和250 g/L阿米西这次之,70％代森锰锌WP最差.     

Effect of external counterpulsation on asymmetry diethylarginine and endothelin levels in blood

AIM:To observe changes of serum asymmetry dimethylarginine (ADMA) and endothelin-1 (ET-1) levels,which reflect blood vessel endothelial function,after therapy of enhanced external counterpulsation(EECP) in patients who had taken percutaneous transluminal coronary angioplasty and stent.METHODS:Fifty one coronary heart disease patients (all of them had taken percutaneous tranluminal coronary angioplasty and stent) were distributed into two groups by matching them with ratio of 1∶2,17 patients in EECP group and 34 patients in control group.Both of two groups were given conventional medicine,in addition,EECP group was undertaken three courses of treatment of EECP.ADMA was detected by HPLC-fluorescence method,and ET-1 was detected by radio-immunity method.RESULTS:In EECP group ，compared with prior treatment,ADMA and ET-1 levels was obviously reduced (P<0.05).In control group,compared with prior treatment,ADMA had no significant difference (P>0.05) and ET-1 was higher (P<0.01).Compared between two groups,extent of decrease in ADMA and ET-1 levels in EECP group were more obvious than control group (P<0.01).Improvement of angina and decrease of frequency of angina was more obvious in EECP group than control group.Besides,decrease of ADMA level was positive correlation with them (r=0.85，0.70,respectively P<0.01).CONCLUSION:EECP reduces serum ADMA and ET-1 levels by increasing shear stress to vessel endothelium in coronary heart disease patients who had taken percutaneous tranluminal coronary angioplasty.It hints that EECP can improve endothelial function and provides experimental evidence for the combined treatment of coronary heart disease.     

豇豆与锈菌互作中的多酚氧化酶和过氧化物酶活性及其与抗性的关系

测定了具有不同抗性水平的5个豇豆Vigna sesquipdalis Wight品种在受锈菌Uromyces vignae Barcl侵染前和侵染后的若干阶段中的多酚氧化酶(PPO)和过氧化物酶(POD)活性,并分析其与抗性的关系.结果表明,在接种后24h内,免疫和抗病品种的PPO比活性及其变化率均高于感病品种,且前者PPO比活性变化率高峰出现早,后者出现迟.在接种后,各品种的POD比活性及其变化率均上升,但中抗和感病品种的高峰出现早,免疫和高抗品种出现晚.此外,中抗和感病品种的POD比活性及其变化率在接种12h左右出现高峰后立即下降,而高抗品种的则持续上升至24h左右出现高峰,免疫品种的POD比活性也在24h左右出现高峰,但其POD比活性变化率则持续到48h左右达到高峰,且免疫和抗病品种的峰值明显大于感病品种.     

Concepts and Direction of Induced Systemic Resistance in Plants and its Application

Resistance to plant disease is often specific and metabolites and receptors contributing to this specificity may have specific structures. However, simple, structurally-unrelated compounds induce systemic resistance in unrelated plants to diverse pathogens including fungi, bacteria and viruses. Both resistance and induced systemic resistance (ISR) are associated with the rapid accumulation of the same structurally unrelated putative defense compounds that have diverse functions. It has been suggested that cultivar (race)-specific resistance is initiated by the specific interaction of a pathogen product (or pathogen induced product) and a plant receptor. However, restricted infection by pathogens can result in ISR and many different compounds can cause ISR. It is thus evident that there are both specific and non-specific routes to the master switch for ISR and there may be more than one master switch. Are reactive oxygen species and free radicals regulating the master switch(es) via both routes? It is also evident there are many switches, other than the master switch. Adding to the complexity of resistance and ISR are the observations that different compounds and pathways may mediate different biochemical resistances. Activation of one of the pathways may antagonize or enhance the activation or effectiveness of another. The review will address these complexities and questions and propose directions of research which require high priority. Factors which encourage and suppress the application of ISR in agriculture will also be addressed.     

中国小麦农家品种‘老白麦’抗条锈性遗传分析

小麦条锈病是小麦生产上重要的气传叶部病害。不断发掘和利用新抗源是持续控制条锈病流行危害的重要基础研究工作。‘老白麦’是我国小麦农家品种,对我国当前主要流行小种和致病类型均表现为高抗水平。本研究采用常规杂交分析方法,对‘老白麦’及其与感病品种‘Taichung 29’的杂交后代在成株期和苗期分别接种CYR32号小种和CYR33号小种,进行抗条锈性鉴定和统计分析。结果表明,‘老白麦’对CYR33号小种在苗期和成株期均表现近免疫,其全生育期抗条锈性由1对显性基因控制;对CYR32号小种在成株期表现近免疫,苗期表现高感,成株抗条锈性由1对显性基因控制,属细胞核遗传。研究结果表明‘老白麦’至少含有2对显性抗病基因,分别控制‘老白麦’对CYR33号小种的全生育期抗性和对CYR32号小种的成株抗性。基因推导分析认为‘老白麦’对CYR33的全生育期抗性基因可能为未知新基因。建议在抗病育种中加以有效合理利用,促进小麦品种中抗病基因多样化布局。     

两个玉米自交系对纹枯病的抗病反应机制初探

玉米纹枯病是由立枯丝核菌(Rhizoctonia solani Kühn)引起的一种重要病害。具有优良性状的自交系是开展玉米抗病品种选育的重要种质资源。本试验以西南地区两个优良玉米自交系R08与18-599R为材料,采用人工接种R.solani菌丝融合群AG1-IA,对成株期玉米进行了抗性鉴定,并对病原菌诱导后苗期玉米叶片上的活性氧(ROS)、抗病相关基因(PR1、ZmDREB2A、ZmERF3和WIP1)表达及细胞坏死情况进行了动态检测。结果显示,R08对纹枯病表现为中抗,而18-599R为高感材料;受R.solani侵染后,玉米叶片ROS的积累在R08中较18-599R多;两个自交系中基因表达量及表达时间存在显著差异;R08叶片出现显著的细胞坏死反应,而18-599R相对较轻。本研究表明两个自交系对R.solani的抗性差异主要体现在相关抗病反应的时间和强度上,这为进一步研究玉米纹枯病抗病机理提供了依据。     

小麦抗源武汉2号和品冬34的抗条锈性遗传分析

为明确小麦品种武汉2号和品冬34对小麦条锈菌流行小种的抗病性及抗病遗传规律,用小麦条锈菌生理小种CYR29、CYR31、CYR32、CYR33以及致病类型Su11-4、Su11-5、Su11-11、PST-Ch42在苗期接种小麦品种武汉2号和品冬34进行抗病性鉴定,并用武汉2号和品冬34分别与感病亲本铭贤169进行杂交,对F₂群体和F_2：3家系在温室进行苗期遗传分析。结果表明：武汉2号对CYR29和CYR32表现感病,对其它小种和致病型均表现抗病,且对CYR31的抗性由1对隐性基因控制;品冬34对所测试的小种和致病类型均表现高抗,且对CYR32的抗性由1对显性基因控制。     

小麦诱导抗性基因TaWIR1b的克隆及表达分析

全蚀病是小麦上一种重要的土传病害。选育和种植抗病品种是防治小麦全蚀病的根本途径,抗病基因研究是抗病育种的基础性工作。根据基因TaWIR1b(Accession no.M94959.1)的全长序列设计引物扩增‘新农19’的cDNA,获得了完整ORF,编码85个氨基酸残基,比对后发现与TaWIR1b序列同源性达100%。根据获得的TaWIR1b基因全长序列设计定量引物,分析TaWIR1b在全蚀菌胁迫条件下不同互作模式的表达特征。结果表明接种全蚀病菌后抗病小麦品种‘新农19’中TaWIR1b基因被诱导表达,接菌后3d达到峰值143.97,感病品种‘新麦19’中峰值出现在接菌后8d,表达量仅为对照的4.22倍,提示该基因可能参与小麦对全蚀病的抗病过程。