Biological Control of Erwinia carotovora ssp. carotovora by Streptomyces Species

Ten isolates of Erwinia carotovora ssp. carotovora (Ecc) were isolated from infected potato tubers of Picasso, Sante, and Nevskiy varieties collected from different regions in Kyrgyzstan. Isolates were identified as Erwinia carotovora ssp. carotovora (Ecc) by standard bacteriological techniques and pathogenicity tests on tubers and also by PCR analyses. Tests on the pathogenicity of E. carotovora ssp. carotovora (Ecc) strains to host plants by artificial inoculation have shown a high sensibility of the Picasso variety. As a result, five isolates were chosen, three isolates (EcPo1, EcPo2, and Eco3) were highly pathogenic, while two isolates (Eco4 and Eco5) were weakly pathogenic. The antagonistic bacteria, Streptomyces diastatochromogenes strain sk-6, and Streptomyces graminearuss strain sk-2, have a highly significant effect on soft rot bacteria isolates (Ecc), more than the other tested antagonistic organisms in vitro screening biotests. The Streptomyces diastatochromogenes sk-6 was selected for the control assay of storage potatoes against the most common soft rot bacterial strain in Kyrgyzstan, Erwinia carotovora sp. carotovora EcPo2. The pretreatment of potato tubers with antagonistic bacteria successfully prevented the initial infection multiplication of soft rot bacteria and reduced soft rot disease of potatoes in storage. These results justify selection of the dose 106 cells/ml of bacteria Streptomyces diastatochromogenes sk-6 for use in powdering the infected or non-infected potato tubers to suppress the development soft rot during storage. Streptomyces diastatochromogenes sk-6 as a biological disinfectant could destroy surface and internal infections, protect the tubers from the growth of phytopathogenic bacteria in the early period of their reproduction, and improve the overwintering of winter crops.

Erwinia carotovora ssp. carotovora Infection Induced ＂Defense Lignin＂ Accumulation and Lignin Biosynthetic Gene Expression in Chinese Cabbage （Brassica rapa L. ssp. pekinensis）

Erwinia carotovora subsp, carotovora （Ecc） infects and causes soft rot disease in hundreds of crop species including vegetables, flowers and fruits. Lignin biosynthesis has been implicated in defensive reactions to injury and pathogen infection in plants. In this work, variations of lignin content and gene expression in the molecular interaction between Chinese cabbage and Ecc were investigated. H2O2 accumulation and peroxidase activity were detected by 3, 3＇- Dimethoxybenzidine staining at mocked and Ecc-inoculated sites of Chinese cabbage leafstalks. Klason lignin content in inoculated plants increased by about 7.84%, 40.37%, and 43.13% more than that of the mocked site at 12, 24 and 72 h after inoculation, respectively. Gas chromatography detected more p-coumaryl （H） and less coniferyl （G） and sinapyl （S） monolignins in leafstalks of Chinese cabbage. All three monomers increased in Ecc-infected leafstalks, and the Ecc-induced ＂defense lignin＂ were composed of more G and H monolignins, and less S monolignin. After searching the expressed sequence tags （EST） data of Chinese cabbage, 12 genes putatively encoding enzymes involved in lignin biosynthesis were selected to study their expression. All of these genes could be induced by mock inoculation and Ecc infection, while the gene expression lasted for several more hours in the infected samples than in mocked and untreated plants. Our results indicated that ＂defense lignin＂ was different from the developmental lignin in composition; G and S monolignins were significantly induced in plants in response to the soft rot Ecc; thus, lignin biosynthesis was differentially regulated and played a role in plant response to the soft rot Ecc.

Effects of C_6-HSL on Potato Growth and Capacity against Soft Rot Disease

[Objective]The aim of this study was to investigate whether communication signal C6-HSL among individual bacteria can influence plant growth and disease resistance ability. [Method]With potato virus-free plantlets as the test materials and C6-HSL as the inducer,the potato＇s growth and the ability of resistance against Erwinia carotovora subp carotovora were tested after being treated by C6-HSL with different concentrations. The effects of C6-HSL on plant landmark defense enzyme activities and H2O2 content in potato leaves were measured especially. [Result]C6-HSL with different concentrations could obviously inhibit the growth rate of root and the number of roots,but had no effect on plant height,number of nodes and leaf size. POD or SOD activity and H2O2 content in plant landmark defense enzymes significantly increased after induction of C6-HSL,but PAL and PPO activity had no obvious change. In the resistant test,potato plants induced by C6-HSL could inhibit the infection of Erwinia carotovora subp carotovora effectively,and its incidence was significantly lower than the control group. [Conclusion]Bacteria AHL can be possibly used as a new kind of plant disease-resistant activator.

芋头软腐病拮抗菌的筛选及生防效果研究

分别从蔬菜田土壤和采后芋头表面黏附土壤中分离纯化到267和244株菌株,通过平板拮抗实验,发现其中6个菌株对胡萝卜软腐欧文氏菌(Erwinia carotovora subsp.carotovora,Ecc)产生了清晰且明显的拮抗圈(直径>10 mm)。利用芋头对它们的生物防控效果进行复筛,结果发现BGP14菌株发酵液处理芋头的发病率仅为6.7%,显著低于其他5个菌株(P<0.05)。根据BGP14的形态学特征、芽孢产生及16S rRNA和gyrB基因的部分核酸序列,该菌株被鉴定为解淀粉芽孢杆菌BGP14(Bacillus amyloliquefaciens)。BGP14在芋头伤口上具有较强的定殖能力,并将病原菌Ecc的群体数量压制在一个较低水平。BGP14与病原菌Ecc联合处理芋头的苯丙氨酸解氨酶(phenylalanine ammonia-lyase,PAL)活性显著高于其他处理。以上结果表明,解淀粉芽孢杆菌BGP14对病原菌E.carotovora具有强大的拮抗活性,能够有效防治贮藏期芋头软腐病,具有潜在的应用开发前景。

魔芋软腐病菌分子鉴定与遗传多样性

通过对分离的魔芋软腐病菌株和其它参试菌株的致病性测定、选择性培养基培养性状观察和16S-23S rDNA转录间隔区PCR(ITS-PCR)分析,将测试的33株软腐病菌株主要分为3个组群。第1组群为胡萝卜软腐欧文氏杆菌胡萝卜软腐亚种(Erwinia carotovorasubsp.carotovora,E.c.c.);第2组群为菊欧文氏杆菌(Erwinia chrysanthemi,E.ch.);还有一组未能确定的菌株。利用细菌基因组重复序列通用引物BOX和J3进行Rep-PCR特异性扩增,引起软腐病的菌株E.c.c.和E.ch.(ITS-PCR鉴定)种内的Rep-PCR指纹存在明显的遗传分化,经聚类分析,在0.1水平上把E.c.c.13株区分为5个类群。

胡萝卜软腐欧文氏菌分子检测技术的研究

胡萝卜软腐欧文氏菌胡萝卜亚种Erwinia carotovorasub sp.carotovora(Ecc)是引起魔芋和马蹄莲软腐病的主要病原细菌.本研究根据细菌L-氨基酸渗透酶同源基因设计URP核苷酸序列特异性引物进行普通PCR、巢式PCR,同时采用细菌16S-23S rDNA间的ITS序列设计引物及TaqMan探针进行实时荧光PCR,对样品中存在的胡萝卜软腐欧文氏菌进行检测,并比较了3种检测方法的特异性和灵敏度.结果表明,应用实时荧光PCR方法检测样品,其中存在的胡萝卜软腐欧文氏菌的最低菌悬液浓度可达10 cfu/mL;巢式PCR灵敏度也可检测到10 cfu/mL;而用普通PCR最低可检测到103cfu/mL.用实时荧光PCR和巢式PCR方法检测病菌,其灵敏度都比常规PCR提高了100倍,且实时荧光PCR方法更快速、简便、安全、准确,不需PCR的后续处理.实时荧光PCR方法适用于种苗、种球等检测领域.

几种化学物质诱导彩色马蹄莲对软腐病抗性的研究

本试验测定了纳米硅、草酸、硅酸钠和硫酸亚铁4种化学物质在不同浓度下对彩色马蹄莲软腐病菌的室内抑菌活性和诱导抗病效果。结果表明,硫酸亚铁3种浓度对彩色马蹄莲软腐病菌均表现较强的抑制作用;1 g/L纳米硅、0.15 g/L草酸和0.2 g/L硅酸钠3种化学物质对软腐病菌无明显抑制作用且诱导抗病效果较好,分别达到62.28%、77.56%、88.46%;经3种化学物质诱导处理后再进行接种,诱导处理和接种期间彩色马蹄莲叶片组织内过氧化物酶(POD)、苯丙氨酸解氨酶(PAL)、多酚氧化酶(PPO)酶活性均高于对照,其中硅酸钠处理后彩色马蹄莲叶片组织内POD、PAL活性高于纳米硅和草酸处理,草酸处理后叶片组织内PPO活性高于纳米硅和硅酸钠处理。

解淀粉芽孢杆菌BGP20-γ的诱变选育及生防效果

胡萝卜软腐欧文氏菌(Erwinia carotovora subsp.carotovora,Ecc)引起的细菌性软腐病是导致采后蔬菜腐败的主要原因之一,前期研究发现解淀粉芽孢杆菌(Bacillus amyloliquefaciens)BGP20对该病害具有较好的生防效果。为了进一步提高BGP20对采后蔬菜细菌性软腐病的生防效果,本研究利用60Co辐照诱变技术,对该菌株进行诱变选育。结果表明,在200-800 Gy剂量范围内,60Co对BGP20的致死率随着辐照剂量的增加而迅速上升。600 Gy剂量的60Co辐照致死率为78.3%,选用该剂量进行诱变选育。利用辣椒对409株突变菌株的生防效果进行活体评价,获得1株生防效果显著提高的突变菌株BGP20-γ(P<0.05)。与野生型菌株BGP20相比,利用突变株BGP20-γ处理的辣椒伤口腐烂面积下降64.4%,其在辣椒伤口上的定殖能力显著提高,将病原菌Ecc的群体数量限制在一个更低的水平。

一株新的胡萝卜软腐欧文氏菌的分离和鉴定

从大白菜软腐组织中分离出一株软腐病细菌BC1,经过形态观察、生理生化特性分析、致病性检测和 16SrDNA序列分析 ,该分离物被鉴定为胡萝卜软腐欧文氏菌胡萝卜亚种 (Erwiniacarotovorasubsp .carotovora ,Ecc)的一个新菌株 ,编号为BC1。这是首次从 16SrDNA序列水平上对在我国分布的软腐欧文氏菌进行鉴定。EccBC1的 16SrDNA序列与其它软腐欧文氏菌株的 16SrDNA序列之间同源性达 98 7%～ 99 3% ,而且在系统发育树中独立于Ecc其它菌株。序列分析结果表明 ,EccBC1具有至少 2种不同的 16SrDNA序列 ,它们都在第 4 5 9位和 4 73位 (相对于大肠杆菌 16SrDNA序列 )发生碱基突变 ,同一基因中两个突变位点之间彼此互补 ,处于 16SrRNA螺旋H17颈部 ,而且这两处碱基变异只存在于BC1菌株中。通过与其它软腐欧文氏菌亚种和菌株 16SrDNA序列进行比对分析 ,还进一步鉴定出一些BC1菌株特异的 16SrDNA碱基突变位点。本文报道的EccBC1两个 16SrDNA序列在GenBank中的登录号分别为AY30 90 6 8和AY30 90 6 9。

表油菜素内酯诱导大白菜抗软腐病研究

试验采用叶面喷施的方法,研究了24-表油菜素内酯(24-Epibrassinolide,EBR)对大白菜软腐病的诱抗作用及其生理机制。结果表明,外源EBR处理大白菜幼苗病情指数明显比对照降低,下降了25.8%;喷施EBR提高了大白菜叶片中H2O2含量,使丙二醛(Malondialdehyde,MDA)含量下降,提高了过氧化氢酶(Catalase,CAT)活性,过氧化物酶(Peroxidase,POD)活性先缓慢升高然后下降;接种软腐病菌后,EBR使H2O2和MDA含量缓慢增加,但EBR处理MDA含量低于对照处理,显著提高了CAT活性,POD活性与对照相比下降,呈现缓慢升高趋势;EBR处理明显促进幼苗的生长,即使在接种软腐病菌期间,植株的长势也比对照强。说明EBR通过调节植物体内氧的代谢平衡,增强对软腐病的抗性。

云南省马蹄莲细菌性软腐病原鉴定

2005年在云南省花卉公司种植的马蹄莲上发现有软腐症状,马蹄莲最初在受害部位出现水浸状坏死,病部很快扩大,病组织开始软化、变色,病斑边缘初有明显界限,随着病势的发展界限逐渐模糊不清,然后软腐.从病株上分离得到20株菌,菌株接种于马蹄莲上,发病症状与田间自然症状一致,并从回接病株上重新分离得到此病原细菌.经16S-23S rDNA转录间隔区PCR(ITS-PCR)分析、测序及BIOLOG生理生化测定,确定该病原菌为胡萝卜软腐果胶杆菌胡萝卜亚种(Pectobacterium carotovorasubsp.carotovora,p.c.c.)和菊果胶杆菌(Pectobacterium chrysanthemi,p.ch.)两种,而主要是Pectobacterium carotovorasubsp.carotovora,p.c.c..

防治软腐病的魔芋内生细菌的筛选与鉴定

本研究采用相似生境分离方法分离魔芋内生细菌后经室内平板初筛、温室复筛试验筛选获得对魔芋软腐病具有良好防治效果的生防菌。研究共分离出127株内生细菌,经过多重筛选后获得3株抑菌效果较好的生防菌(M3,M2,1-7)。经培养性状、菌落形态观察、生理生化特性分析(Biolog系统)和16S r DNA序列分析等方法,将M3,M2,1-7分别鉴定为:枯草芽孢杆菌(Bacillus subtilis)、解淀粉芽孢杆菌(Bacillus amyloliquefaciens)和成团泛生菌(Pantoea agglomerans)。这是将寄主植物内生细菌作为生防菌防治该病害的首次报道。

马蹄莲细菌性软腐病菌的鉴定

从美国进口马蹄莲种球种植后发生较多的软腐病 ,从病叶上分离到一种引起软腐症状的病原细菌。该病原菌为革兰氏阴性杆菌 ,兼性厌气 ,鞭毛周生 2～ 6根 ,接触酶阳性 ,氧化酶阴性 ,能引起马铃薯和大白菜软腐。经致病性、形态特征、培养特征、生理生化和Biolog测试 ,鉴定为Erwiniacarotovorasubsp .carotovora。

苏云金芽胞杆菌AiiA蛋白对魔芋软腐病菌的抗病活性

AiiA蛋白通过破坏病原菌的信号分子来阻断病原菌的群体感应调节系统,达到抗病的目的,是一种新型的抗病蛋白.根据蜡状芽胞杆菌ATCC14579基因组中aiiA序列设计引物,从苏云金芽胞杆菌中成功扩增出aiiA基因,其ORF为753bp,测序后经blast检测与已发表的序列相似性均在95%以上.将此基因克隆到pET28a表达载体中,转化大肠杆菌BL21(DE3),经IPTG诱导,超量表达的蛋白在菌体中以包涵体形式存在,纯化的AiiA蛋白经SDS PAGE电泳检测,表达产物分子量为28×103,致病性测定表明该蛋白对魔芋软腐病菌CZY具有较强的抗病活性.

胡萝卜软腐欧文氏菌中信号分子合成酶expI基因的克隆、表达及其分析

用PCR方法从胡萝卜软腐欧文氏菌的基因组DNA中扩增出信号分子合成酶expI基因,将其克隆到大肠杆菌表达载体pET-28α(+)上,转化大肠杆菌BL21(DE3),获得高效表达expI基因的重组大肠杆菌BL21(pET28α-expI)。重组菌经IPTG诱导表达,SDS-PAGE检测表达蛋白相对分子质量约为24.8 kD,与预期分子量相符。经薄层层析和高效液相色谱分析发现该重组菌产生的信号分子种类为N-3-羰基己酰高丝氨酸内酯和N-己酰高丝氨酸内酯与胡萝卜软腐欧文氏菌产生的一致。

铁棍山药内生菌的分离及对白菜软腐菌拮抗菌的筛选

用涂布平板法从铁棍山药(Dioscoreaopposita Thunb. CV. Tiegun)中分离得到32株内生菌菌株。用抑菌圈法测定其对白菜软腐菌(Erwiniacarotovora var. carotovora)的拮抗作用,共得到11株对该病原菌有拮抗作用的菌株,占菌株总数的34.4%。其中抑菌圈直径大于或等于10mm的菌株有4株,分别是B-2、B-5、B-6和F-8,占菌株总数的12.5%,抑菌圈直径最大的可达15mm。对具有拮抗作用的菌株进行革兰氏染色和芽孢染色,结果表明:这11株菌株全为细菌,均无芽孢;革兰氏染色阳性(G+)的有4株,革兰氏染色阴性(G-)的有7株;有3株菌株为球菌,其余为杆菌。

彩色马蹄莲欧文氏菌PCR检测

采用聚合酶链式反应(PCR)技术检测彩色马蹄莲欧文氏菌纯培养和彩色马蹄莲样品,并用分离培养技术加以验证。结果表明,PCR能特异地检测出所有10个彩色马蹄莲欧文氏菌菌株,并证实了昆明地区侵染彩色马蹄莲的细菌为胡萝卜软腐欧文氏菌(Erwiniacarotovorasubsp.carotovora)。PCR与分离培养技术检测结果基本一致,但总体上PCR检测阳性率稍高于分离培养检测的发病率。接种马铃薯、大白菜24h后接种点处均出现明显软腐症状。该项技术具有更高的灵敏度,适用于彩色马蹄莲种苗的检测和病害流行学研究。

大白菜抗软腐病性状的SRAP标记分析

以大白菜高抗软腐病的自交系A32-2和感病自交系A19-2进行杂交的F2代225个单株作为构建遗传图谱的作图群体,采用SRAP标记方法构建了包含10个连锁群,由103个SRAP遗传标记组成的大白菜分子遗传图谱,该图谱覆盖长度为1223.6cM,平均图距11.9cM。运用软件Windows QTL Cartographer V2.5和复合区间作图法共检测到4个抗软腐病的QTL位点。

西葫芦软腐病病原的初步研究

2004～2006年,在山东省的临淄、聊城、寿光、临沂等12个县市保护地栽培的西葫芦中发现一种严重危害茎基部的细菌性病害。从22批次55株西葫芦病株标本中,经分离纯化获得135个菌株,从中选出部分菌株按柯赫法则对其进行致病性测定,均产生与田间相同症状。对病原菌形态、染色反应、培养性状和生理生化等几项试验结果表明,病原菌为胡萝卜软腐欧文氏菌胡萝卜软腐亚种Erwinia carotovora subsp.carotovora。

四株胡萝卜软腐欧文氏杆菌胡萝卜亚种新菌株的分离鉴定

采用棋盘式取样法,从正茬、重茬、连作2年和连作3年的马铃薯播前、现蕾期、成熟期和收获期4个不同阶段采集马铃薯根围土样。以稀释平板法,用选择性培养基CVP分离软腐欧文氏杆菌,共得到42个菌株。在形态学观察和生理生化特性测定的过程中发现编号为GAUP-b410、GAUP-b492、GAUP-b416和GAUP-d34等4个菌株的主要性状一致,且与其他菌株的性状不同。致病性测定结果显示,这4个菌株均能引起马铃薯薯片腐烂。对其中的2个菌株进行了16S rDNA序列分析,其PCR产物的序列与GenBank上登记的18个分离自中国大白菜上的Erwinia carotovorasubsp.carotovora菌株的亲缘关系最近,同源性均达99%。利用DNAStar软件绘制系统发育树状图,菌株GAUP-b410亦与这18个E.carotovorasubsp.carotovora菌株位于系统发育树的同一分支,聚为一类;菌株GAUP-b492与其中的16个E.carotovorasubsp.carotovora菌株位于系统发育树的同一分支,聚为一类;结合生理生化特性和16S rDNA序列分析,确定这4个菌株为胡萝卜软腐欧文氏杆菌胡萝卜亚种(E.carotovorasubsp.carotovora)新菌株。