天山大峡谷原始森林黏细菌的分离鉴定及其抗菌活性

【背景】黏细菌是一类具有多细胞群体行为特征的高等原核生物,其对植物病原真菌和细菌的捕食特性使其在植物病害防治方面具有重要的应用潜力。【目的】探究乌鲁木齐天山大峡谷原始森林可培养黏细菌的多样性并分析其抗菌活性,为发掘黏细菌生防菌株奠定基础。【方法】以天山大峡谷原始森林采集的土样和腐木为分离材料,采用兔粪诱导法和被捕食菌诱导法从中分离纯化黏细菌菌株,结合形态学观察、生理生化测定和16S rRNA基因序列分析确定其分类地位,并以6种植物病原真菌[大丽轮枝菌(Verticillium dahliae)、尖孢镰刀菌萎蔫专化型(Fusarium oxysporum f. sp. vasinfectum)、拟轮枝链孢霉(Fusarium verticillioides)、立枯丝核菌(Rhizoctonia solani)、黄色镰刀菌(Fusarium culmorum)、细极链格孢菌(Alternaria tenuissima)]和1种植物病原细菌[梨火疫病菌(Erwinia amylovora)]为靶标菌,通过平板对峙法和菌苔捕食法测定其抗菌活性。【结果】从采集的样品中分离出70株菌株,经纯化后获得36株黏细菌纯培养物。经鉴定隶属于4个属,黏球菌属(Myxococcus) 30株、孢囊杆菌属(Cystobacter) 3株、珊瑚球菌属(Corallococcus) 2株和原囊菌属(Archangium) 1株。抗菌活性分析显示,本研究获得的36株黏细菌至少对2种植物病原真菌有抗菌活性,表现出广谱的抗真菌活性,初步筛选出一株菌株NSE37-1兼具广谱和高效抗真菌活性;供试的15株黏细菌对梨火疫病菌均具有捕食活性,初步筛选出一株对梨火疫病菌具有较强捕食能力的黏细菌菌株NSE25。【结论】天山大峡谷可培养黏细菌资源比较丰富,黏球菌属是该地区可培养黏细菌菌群中的优势菌。分离纯化出的黏细菌菌株均表现出广谱的抗植物病原菌活性,具有进一步研究和开发的潜在价值。     

连作花魔芋软腐病株与健株根域丛枝菌根真菌群落多样性

【目的】解析不同连作年限花魔芋软腐病株、健株根域的丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)群落多样性。【方法】使用AMF 18S SSU rRNA基因特异引物AMV4.5NF/AMDGR对正茬及连作2年和3年的软腐病株、健株魔芋根系和根际土壤DNA扩增建库,通过高通量测序和生物信息学分析探究魔芋软腐病与其根域AMF群落多样性的关系。【结果】魔芋根系具有明显的AMF菌丝、泡囊和丛枝等结构。在相同连作年限条件下,健株根系AMF总侵染率、侵染强度和孢子密度均显著高于病株(P<0.05);在不同连作年限条件下,病株根系AMF总侵染率和侵染强度随连作年限延长而降低。从所有样品中共鉴定到9属53种AMF,其中有49个已知种和4个新种。球囊霉属(Glomus)和类球囊霉属(Claroideoglomus)是AMF群落的优势属,其AMF种分别占总AMF种数的41.5%和26.4%;丰度最高的Paraglomus sp.VTX00308是所有样品的共有种。连作、软腐病及二者的交互作用显著影响根系AMF群落的Shannon指数和Simpson指数及根际土壤AMF的Chao1指数(P<0.05)。通过丰度差异分析发现6个在连作软腐病发生后丰度差异显著的AMF种(P<0.05);NMDS分析表明,不同连作年限的魔芋软腐病株与健株之间的根域AMF菌种组成、相对丰度和群落结构存在差异。相关性分析表明,软腐病发病率和病情指数与魔芋根系和根际土壤AMF的Shannon指数、根系AMF的Chao1和Simpson指数以及AMF总侵染率、侵染强度和孢子密度极显著负相关(P<0.01)。【结论】比对健株,连作魔芋软腐病株根际土壤AMF孢子密度以及根系AMF侵染率、种数和多样性均降低,其群落结构显著改变。     

不同熏蒸剂对草莓连作土壤养分和微生物群落的影响

【背景】草莓连年栽培导致土传病害问题突出,施用熏蒸剂进行土壤消毒因效果显著得以广泛应用。但不同熏蒸剂对土壤病原微生物的影响存在较大差异,同时对非靶标微生物和土壤理化性质也会有不同程度的影响。【目的】明确不同熏蒸剂对草莓连作土壤养分和土壤细菌、真菌群落结构的影响,为合理选择熏蒸剂提供科学依据。【方法】以连作土壤为材料设置5个处理：未熏蒸、石灰氮熏蒸、石灰熏蒸、棉隆熏蒸、威百亩熏蒸,测定熏蒸处理后土壤养分含量;采用PacBio测序平台分析土壤微生物多样性的变化。【结果】石灰氮和威百亩处理均增加了碱解氮含量,降低了有机质、有效磷和速效钾含量;棉隆处理土壤中各养分含量均增加;石灰处理除有机质含量增加外,碱解氮、有效磷和速效钾含量均降低;棉隆、石灰和威百亩处理显著降低pH值。5个处理草莓连作土壤样本中获得了1 164个细菌OTU和444个真菌OTU。细菌多样性和丰富度分析发现,4种熏蒸剂处理均增加了土壤细菌群落的丰富度,石灰氮、石灰和威百亩处理增加了土壤细菌菌落的多样性。4种熏蒸剂处理真菌菌落的丰富度低于对照;石灰、棉隆处理真菌菌落的多样性高于对照和石灰氮、威百亩处理低于对照,但差异不显著。在物种组成分析中,从门水平看,变形菌门(Proteobacteria)和芽单胞菌门(Gemmatimonadetes)为优势细菌门;与对照相比,石灰氮、石灰、棉隆处理变形菌门相对丰度增高,威百亩处理相对丰度降低。4种处理均降低了芽单胞菌门的相对丰度。其他门类中,4种处理均增加了浮霉菌门(Planctomycetota)、疣微菌门(Verrucomicrobia)的相对丰度。优势细菌群落分析表明土壤熏蒸减少了芽单胞菌属(Gemmatimonas)、藤黄单胞菌属(Luteimonas)、中慢生根瘤菌属(Mesorhizobium)等细菌的相对丰度,增加了噬几丁质菌属(Chitinophaga)、苍白杆菌属(Ochrobactrum)的相对丰度。子囊菌门(Ascomycota)为优势真菌,石灰氮、石灰、棉隆、威百亩4种处理均增加了子囊菌门的相对丰度。另外还检测到引起草莓根部土传病害的枝孢属(Cladosporium)和镰刀菌属(Fusarium)病菌,熏蒸处理后均降低了枝孢属和镰刀菌属的相对丰度,其中枝孢属在石灰氮、石灰、棉隆、威百亩处理中分别降低了1.35%、1.11%、0.90%和1.31%,镰刀菌属分别降低了0.71%、0.85%、0.19%和0.65%,但差异不显著。4种土壤熏蒸剂均增加了有益真菌毛壳菌属(Chaetomium)的相对丰度。【结论】采用熏蒸剂处理连作土壤改变了微生物群落构成,减少或灭杀土壤中的大部分致病菌属,起到有效防治草莓土传病害的作用,但不能灭杀所有病菌,而且对有益菌和土壤理化性质有不同程度的影响,因此处理后补充有益微生物非常关键。根据对病原菌的灭杀效果,石灰氮、威百亩处理的效果优于其他处理,可作为轮换施用的熏蒸剂,本试验条件下,棉隆是一种弱的处理剂。     

云南嵩明大哨天然虫生真菌及其内生真菌的分离鉴定与抑菌活性分析

【背景】云南存在着丰富的虫草资源,天然虫草群落中蕴藏多样的真菌资源,是挖掘新型抑菌活性化合物的潜在来源。【目的】了解云南嵩明大哨天然虫生真菌及其内生真菌的物种多样性,并从中筛选具有抑菌活性的菌株。【方法】采用组织分离法对所采集的野生虫草样本进行虫生真菌及其内生真菌的分离,并通过形态观察和ITS联合nrSSU、nrLSU、tef-1α、rpb1、rpb2多基因测序进行物种鉴定及多样性分析;通过平板对峙法以7株病原细菌、5株植物病原真菌为病原指示菌进行抑菌活性测试。【结果】共采集86份天然虫草样本,经鉴定隶属于3科5属7种,包括虫草科（Cordycipitaceae）虫草属（Cordyceps）（1种）、白僵菌属（Beauveria）（2种）、鳞翅虫草属（Samsoniella）（2种）、麦角菌科（Clavicipitaceae）泛普可尼亚属（Metapochonia）（1种）,以及线虫草科（Ophiocordycipitaceae）线虫草属（Ophiocordyceps）（1种）。同时,从采集到的虫草样本中分离得到26株内生真菌,分属于9科9属,其中木霉属（Trichoderma）（38%）和镰刀菌属（Fusarium）（19%）为此次分离得到的优势菌属。对所分离保存的真菌按其分离源及种类归属,从虫生真菌和内生真菌菌株中共挑取20株代表性菌株进行抑菌活性筛选,有11株真菌对2株及以上病原指示细菌具有不同程度的抑菌活性,13株真菌对1株以上植物病原真菌具有不同程度拮抗能力;其中Trichoderma sp.Y3-1和Fusarium sp.WZ3-1具有广谱抑菌活性。【结论】云南嵩明大哨分布有丰富的虫生真菌及内生真菌资源,分离所得的真菌对多种病原菌具有不同程度的抑制作用。本研究丰富了云南虫草资源多样性,为云南省虫草及其内生真菌资源的开发利用提供了数据支持,也为下一步从虫草及其相关真菌资源中挖掘抑菌活性物质提供了菌株资源。     

Wallemiasebi的Rnase活性和抗植物病原真菌活性的初步研究

Wallemia是中国的一新记录属,该属只有Wallemiasebi一个种。Wallemiasebi在PDA平板上对植物病原真菌尖孢镰刀菌(Fusariumoxysporum)和大丽花轮枝孢(Verticilliumdahliae)有强抑制作用。YG培养基上培养的Wallemiasebi菌丝体有Rnase活性,在0·1mol/LpH7·5的磷酸缓冲液中其活性最高,达322·0U/mg。     

贵州半夏块茎腐烂病病原菌的分离与鉴定

【目的】对贵州省半夏块茎腐烂病病原菌进行分离和鉴定,为开发有效的防治技术体系提供依据。【方法】采用组织分离法进行病原菌分离,根据柯氏法则进行致病性测定,结合形态学、生理生化特性和分子生物学方法进行鉴定。【结果】从贵州3个半夏产地患病样品中分离出12株病原细菌和5株病原真菌。经形态学、生理生化特性和分子生物学方法鉴定,12株病原细菌为胡萝卜软腐果胶杆菌胡萝卜软腐亚种;ZJ、Z3病原真菌为尖孢镰刀菌,D3、D5、H1为茄病镰刀菌。【结论】贵州省半夏块茎腐烂病的病原菌有病原细菌和病原真菌。     

云南三个地区马铃薯内生真菌多样性研究

为研究云南马铃薯(Solanum tuberosum)内生真菌的多样性,该文以采自云南省德宏芒市、大理喜洲和临沧双江3个地区的马铃薯植株为研究对象,采用组织块分离法、尖端菌丝挑取法对马铃薯根、茎及块茎中的内生真菌进行分离纯化,并采用形态学鉴定方法和ITS序列分析法对分离得到的内生真菌进行鉴定,对内生真菌的定殖率、分离率及多样性指数进行计算和分析。结果表明:(1)共分离得到内生真菌98株,其中从德宏芒市的样品中获得40株,从大理喜洲的样品中获得27株,从临沧双江的样品中获得31株。(2)经鉴定,分离得到的马铃薯内生真菌共涵盖10目10科13属,大多为子囊菌门和担子菌门,优势菌为镰刀菌属(Fusarium)和青霉属(Penicillium),褶皱裸孢壳(Emericella rugulosa)、接骨木镰刀菌(Fusarium sambucinum)、毛韧革菌(Stereum hirsutum)、Psathyrella sulcatotuberculosa和Epicoccum catenisporum 5种真菌均为首次从马铃薯植株中分离得到。(3)马铃薯块茎内生真菌的定殖率最高,根部内生真菌定殖率最低; 内生真菌的分离率以马铃薯根部为最高,而茎部最低; 不同组织中内生真菌的多样性指数趋势均为根>块茎>茎。从综合来看,云南马铃薯植株中的内生真菌具有较高的多样性,不同地区的马铃薯样品中内生真菌优势菌不同,马铃薯根部具有最丰富的内生真菌种群和最高的分离率,是最适合进行内生真菌分离的材料。该研究结果为后期探究马铃薯内生真菌对病原菌的拮抗作用奠定了基础,也为马铃薯内生真菌多样性研究提供了参考数据。     

青枯病易感和钝感桑树品种根际土壤真菌群落结构比较

为研究青枯病易感和钝感桑树品种植株根际土壤真菌群落组成,该研究以ITS1F和ITS2R为引物,基于高通量测序技术对桑树青枯病易感品种(台湾长果桑,SM)和桑树青枯病钝感品种(桂桑12号,IM)植株根际土壤真菌群落结构进行分析。结果表明:(1)两个品种间指示真菌丰富度的ACE、Chao1指数及表征多样性的Shannon指数无显著差异,门分类水平,被孢霉门(Mortierellomycota)和球囊菌门(Glomeromycota)是青枯病钝感桑树品种植株根际土壤中特有的优势真菌门; 而属分类水平,Apiotrichum、地丝菌属(Geotrichum)、足放线病菌属(Scedosporium)和腐质霉属(Humicola)等是青枯病易感桑树品种植株根际土壤中富集的特有优势真菌属。(2)青枯病易感桑树品种植株根际土壤中,缺失了被孢霉门、球囊菌门真菌,以及被孢霉属(Mortierella)、镰刀菌属(Fusarium)、曲霉菌属(Aspergillus)和毛壳菌属(Chaetomium)等具有生防功能的优势真菌门属,可能是其易感青枯病的重要原因。(3)根据真菌群落对同类环境资源的利用途径进行功能预测发现,青枯病易感桑树品种根际土壤中,富集了相对较多的病理营养型和腐生营养型真菌; 而青枯病钝感桑树品种根际土壤中,富集了相对丰富的共生营养型真菌。(4)特有真菌数量更为丰富的土壤真菌OTU分类水平,可能是青枯病钝感桑树品种田间表现出更强抗性的重要原因。可见,在青枯病钝感桑树品种植株根际土壤中,富集的被孢霉属、镰刀菌属、曲霉菌属和毛壳菌属等优势特异真菌属,具有作为拮抗桑树青枯病备选菌属的潜力。     

朱鹮肠道微生物多样性与产酶活性

【背景】朱鹮是我国国家一级保护动物,属于世界上最濒危的鸟类之一。对朱鹮肠道微生物的多样性和产胞外酶活性进行分析,可为朱鹮种群数量恢复提供思路。【目的】了解朱鹮肠道微生物的多样性,测定其产胞外酶活性。【方法】采用纯培养的方法获得朱鹮肠道微生物,通过革兰氏染色和生理生化鉴定,结合16S rRNA基因扩增和序列分析对细菌进行鉴定。使用水解圈法筛选产淀粉酶、蛋白酶、纤维素酶、脂肪酶的菌株。【结果】从人工喂养的朱鹮新鲜粪便中共分离到296株细菌,共计2个门11个属。变形菌门(Proteobacteria) 236株,占分离总数的79.73%,分别为：埃希氏菌属(Escherichia) 137株,占分离总数的46.28%;哈夫尼亚菌属(Hafnia) 39株,占分离总数的13.18%;变形菌属(Proteus) 28株,占分离总数的9.46%;柠檬酸杆菌属(Citrobacter) 23株,占分离总数的7.77%;气单胞菌属(Aeromonas) 6株,占分离总数的2.03%;肠杆菌属(Enterobacter) 1株,占分离总数的0.34%;志贺菌属(Shigella) 1株,占分离总数的0.34%;克雷伯菌属(Klebsiella) 1株,占分离总数的0.34%。厚壁菌门(Firmicutes) 60株,占分离总数的20.27%,分别为：肠球菌属(Enterococcus) 33株,占分离总数的11.15%;库特氏菌属(Kurthia) 14株,占分离总数的4.73%;芽孢杆菌属(Bacillus) 13株,占分离总数的4.39%。优势菌群为变形菌门(Proteobacteria)中的埃希氏菌属(Escherichia),占细菌总数的46.28%。经过生理生化鉴定,每个菌株生理生化鉴定出的种属与各自的16S rRNA基因鉴定出的种属相一致。产酶活力分析结果显示有238株产蛋白酶、25株产脂肪酶、24株产淀粉酶、15株产纤维素酶,分别占分离总数的80.41%、8.45%、8.11%和5.07%。【结论】朱鹮肠道微生物分离出的细菌可分为2门11属,优势菌群为变形菌门(Proteobacteria)中的埃希氏菌属(Escherichia),占细菌总数的46.28%;产酶活性分析显示,80.41%的菌株具有产蛋白酶能力。     

柑橘内生真菌的分离鉴定及其发酵产物对柑橘溃疡病菌的抑制活性

本研究从柑橘抗病品种的健康植株不同组织中分离纯化和鉴定内生真菌,并测定其发酵产物对柑橘溃疡病菌的抑制活性,以明确柑橘抗病品种中内生真菌的组成及其产抗柑橘溃疡病菌活性代谢产物的潜力,为柑橘溃疡病抗菌剂的开发奠定基础。该研究通过组织培养法分离内生真菌,采用形态学和分子生物学方法对其进行鉴定; 基于前期的拮抗预试验结果,选取代表性菌株进行发酵培养,通过乙酸乙酯浸提、真空抽滤、旋转蒸发浓缩制备粗提物; 采用带毒平板涂布法测定不同菌株发酵产物乙酸乙酯提取物对柑橘溃疡病菌的抑制活性。结果表明:(1)共分离得到72株内生真菌,归为2门(Ascomycota、Basidiomycota)、14个属,其中优势属为刺盘孢属(Colletotrichum)、球座菌属(Guignardia)、链格孢属(Alternaria)和镰刀菌属(Fusarium)。(2)不同柑橘品种中内生真菌多样性指数为温州蜜柑(桂林)>沙糖桔(桂林)>沙糖桔(梧州)。(3)不同组织中内生真菌多样性变化因地理位置差异而有所不同,采自桂林的温州蜜柑和沙糖桔均为叶片中的内生真菌的多样性高于枝条,而采自梧州的沙糖桔为叶片中的多样性低于枝条,并且采自梧州的柑橘样品与采自桂林的柑橘样品中的内生真菌相似性低。(4)测定了30株内生真菌乙酸乙酯提取物对柑橘溃疡病菌的抑制活性,其中29株菌株表现出不同程度抑制活性。不同柑橘品种中的优势属的MIC介于0.312 5～10 mg·mL^-1之间,特有属的MIC介于0.156～5 mg·mL^-1,共有属镰刀菌属的MIC介于0.312 5～2.5 mg·mL^-1之间。研究结果表明柑橘抗病品种中内生真菌具有丰富多样性,并且其发酵提取物普遍对柑橘溃疡病菌具有抑制作用。特有属抑菌活性总体优于优势属,共有属镰刀菌属在不同柑橘抗病品种中均具有显著抑菌效果。     

Molecular detection of Pectobacterium species causing soft rot of <Emphasis Type="Italic">Amorphophallus konjac</Emphasis>

Soft rot disease of Amorphophallus konjac is caused by Pectobacterium species. Infected corms are considered a primary and important source of inocula. Based on the 16S rDNA sequences of the soft rot pathogens, one pair of specific primers was designed to identify the soft rot disease by real-time PCR and the other two were used to identify the pathogens of Pectobacterium carotovorum subsp. carotovorum. and P. chrysanthemi respectively. According to the results, a single cell of Pectobacterium could be detected by real-time PCR with the designed primer pair, while at least 100 bacteria were required for conventional PCR. Moreover, the two special primers can directly and accurately authenticate to Pectobacterium carotovorum subsp. carotovorum and P. chrysanthemi by the conventional PCR system without testing the pathogenicity, biochemical and phenotypic characterizations and so on. In conclusion, the PCR-based techniques showed several significant advantages in identifying the soft rot pathogens from konjac, such as higher sensitivity, rapidness and precision, and it could be widely used in seed quarantine.     

Pectolytic Bacteria Associated with Soft Rot of Calla Lily (Zantedeschia spp.) Tubers

Soft rot is the most important disease on calla lily in Poland. The isolation of the presumptive pathogen from symptomatic tubers on nutrient agar yielded bacteria with different colony morphology. Of 41 isolates collected, 10 showed pectolytic activity on crystal violet pectate medium and caused soft rot on potato slices. All pectolytic bacteria appeared to be Gram‐negative rods producing typical soft rot on inoculated leaf petioles of calla lily. Bacteria with colonies which morphologically resembled those used for inoculation were re‐isolated from diseased petioles. Their identification was based on phenotypic characters and sequence of the gene fragment coding 16S rRNA. It was found that, in addition to Pectobacterium carotovorum subsp. carotovorum, soft rot of calla lily can be caused by Pectobacterium carotovorum subsp. atrosepticum, Pseudomonas marginalis, Pseudomonas veronii and Chryseobacterium indologenes. The latter two are described for the first time as plant pathogens. The pectolytic activity of all identified bacteria, except that of P. carotovorum subsp. atrosepticum, was lower than that of P. carotovorum subsp. carotovorum, but strains of P. veronii showed a higher activity than P. marginalisand C. indologenes species.     

Characterization of Pectobacterium carotovorum subsp. carotovorum Causing Watermelon Soft Rot Disease in Iran

The aim of this study was characterized Pectobacterium carotovorum subsp. carotovorum (Pcc) the causal pathogen of watermelon soft rot disease in Iran. Of fifty bacterial isolates with white grey and convex colonies on nutrient agar obtained from symptomatic watermelon, ten isolates were selected for further tests. Pathogenicity tests results showed that all test isolates developed typical water‐soak symptoms after 2 days and signs of soft rot began 4 days after inoculation on watermelon fruits. Based on the phenotypic properties, the isolates were identified as Pectobacterium carotovorum subsp. carotovorum. The 16S rDNA sequences of isolates were 99% similar to the corresponding 16S rDNA sequence of the reference Pcc isolate. BOX and ERIC‐PCR analysis indicated that genetic diversity was present among the isolated Pcc isolates did not relate to the geographic location isolated from. To the best of our knowledge, this is the first study of biochemical and genotypic characterization of Pcc isolates the causal agents of soft rot disease on watermelon, in Iran.     

Fusarium fractiflexum sp. nov. and two other species within theGibberella fujikuroi species complex recently discovered in Japan that form aerial conidia in false heads

Morphological and molecular phylogenetic analyses were conducted on 12 strains ofFusarium, deposited in MAFF asF. subglutinans (≡F. moniliforme var.subglutinans≡F. sacchari var.subglutinans) orFusarium sp. because they formed aerial conidia in false heads in the dark. These strains were resolved as three distinct species within theGibberella fujikuroi species complex. A new species,F. fractiflexum, and two species new to Japan,F. circinatum andF. concentricum, are described and illustrated and their morphological features are discussed.Fusarium fractiflexum, isolated from diseased yellow leaf spots ofCymbidium spp., is differentiated from other fusaria based on its yellowish colonies and aerial conidia formed in false heads in the dark and in zigzag-like conidial chains under black light. Japanese strains ofF. circinatum also formed elongate, coiled sterile hyphae. Phialidic aerial conidia with a pointed apex and a wedgeshaped base were found inF. concentricum cultured under black light and represent a new diagnostic character of the species, in addition to colonies with alternating concentric rings when cultured on PDA. Based on DNA sequences of the β-tubulin gene and two other loci, strains ofF. fractiflexum were resolved phylogenetically as members of the Asian clade of theG. fujikuroi species complex. In addition, Japanese strains ofF. circinatum andF. concentricum were phylogenetically identical to the ex-type strains.     

Extracellular secretion of Carocin S1 in Pectobacterium carotovorum subsp. carotovorum occurs via the type III secretion system integral to the bacterial flagellum

Background  

Pectobacterium carotovorum subsp. carotovorum is a phytopathogenic enterobacterium responsible for soft rot, a disease characterized by extensive maceration of the affected plant tissue. This species also produces two or more antibacterial substances called bacteriocins, which enhance its competitiveness against related rival species. However, the secretion mechanism for low-molecular-weight bacteriocin is still unknown.     

Multiplex detection and identification of bacterial pathogens causing potato blackleg and soft rot in Europe,using padlock probes

The objective of this study was to develop a multiplex detection and identification protocol for bacterial soft rot coliforms, namely Pectobacterium wasabiae (Pw), Pectobacterium atrosepticum (Pba) and Dickeya spp., responsible for potato blackleg and tuber soft rot. The procedures were derived from the phylogenetic relationships of these and other Enterobacteriaceae based on recA sequences. The group of Pw strains was highly homogeneous and could be distinguished from the other species. A ligation‐based method for detection of Pw was developed. Five padlock probes (PLPs) were designed, targeting recA sequences to identify the Pw, Pba or Dickeya spp., whereas a sixth probe recognised recA sequences of all soft rot coliforms including Pectobacterium carotovorum subsp. carotovorum (Pcc). Two PLP‐based applications were developed: one using real‐time PCR and one using universal microarrays. Assay sensitivity and specificity were demonstrated using 71 strains of Pw, Pcc, Pba and Dickeya spp. Both multiplex methods can be potentially used for seed testing and in ecological studies, but further validation is required.     

Fungi associated with storage rots of cocoyams (Colocasia spp.) in Nsukka,Nigeria

Cocoyam (Colocasia spp.) corms and cormels showing spoilage symptoms were collected from many stores in Nsukka locality and examined for rot and associated fungal pathogens. Aspergillus niger, Botryodiplodia theobromae, Corticium rolfsii, Geotrichum candidum, Fusarium oxysporum, and F. solani were recovered from rotten cocoyams. The representative isolates of these species caused cocoyam rot in pathogenicity tests. The rot due to A. niger, B. theobromae and C. rolfsii was extensive resulting in complete maceration of cocoyam tissue. Potassium sorbate (0.1 mg/ml) protected cocoyams from fungal rot with the exception of C. rolfsii.     

Simultaneous detection of major blackleg and soft rot bacterial pathogens in potato by multiplex polymerase chain reaction

A multiplex polymerase chain reaction (PCR) assay for simultaneous, fast and reliable detection of the main soft rot and blackleg potato pathogens in Europe has been developed. It utilises three pairs of primers and enables detection of three groups of pectinolytic bacteria frequently found in potato, namely: Pectobacterium atrosepticum, Pectobacterium carotovorum subsp. carotovorum together with Pectobacterium wasabiae and Dickeya spp. in a multiplex PCR assay. In studies with axenic cultures of bacteria, the multiplex assay was specific as it gave positive results only with strains of the target species and negative results with 18 non‐target species of bacteria that can possibly coexist with pectinolytic bacteria in a potato ecosystem. The developed assay could detect as little as 0.01 ng µL^–1 of Dickeya sp. genomic DNA, and down to 0.1 ng µL^–1 of P. atrosepticum and P. carotovorum subsp. carotovorum genomic DNA in vitro. In the presence of competitor genomic DNA, isolated from Pseudomonas fluorescens cells, the sensitivity of the multiplex PCR decreased tenfold for P. atrosepticum and Dickeya sp., while no change was observed for P. carotovorum subsp. carotovorum and P. wasabiae. In spiked potato haulm and tuber samples, the threshold level for target bacteria was 10¹ cfu mL^–1 plant extract (10² cfu g^–1 plant tissue), 10² cfu mL^–1 plant extract (10³ cfu g^–1 plant tissue), 10³ cfu mL^–1 plant extract (10⁴ cfu g^–1 plant tissue), for Dickeya spp., P. atrosepticum and P. carotovorum subsp. carotovorum/P. wasabiae, respectively. Most of all, this assay allowed reliable detection and identification of soft rot and blackleg pathogens in naturally infected symptomatic and asymptomatic potato stem and progeny tuber samples collected from potato fields all over Poland.     

黄花倒水莲内生真菌生物活性评价及HNLF-44菌株鉴定

为充分开发黄花倒水莲(Polygala fallax)的内生真菌资源，获得具有抗植物病原真菌、抗氧化活性的内生真菌，该文以黄花倒水莲内生真菌为研究对象，使用平板对峙法检测内生真菌对6种植物病原真菌的抑菌活性，测定内生真菌发酵液的DPPH清除自由基能力和总还原能力，评价内生真菌的抗氧化活性，并对具有强抑菌活性和抗氧化活性的菌株进行形态和ITS鉴定。结果表明：(1)黄花倒水莲内生真菌中有2株内生真菌对香蕉专化尖孢镰刀菌、柑橘树脂病菌、叶点霉菌、香蕉具条叶斑病菌、茄病镰刀菌、三七根腐病菌具有明显的抑菌活性，抑菌率在50.3%～91.4%之间，其中HNLF-5对柑橘树脂病菌的抑菌率为73.2%,HNLF-44对香蕉专化尖孢镰刀菌抑菌率为91.4%。(2)内生真菌发酵液具有良好的抗氧化活性，DPPH清除率均在80%以上，总还原能力吸光值范围为0.279 2～0.748 8。(3)HNLF-44菌株为链格孢属真菌。该研究表明，药用植物黄花倒水莲内生真菌具有较好的生物活性，为后续从黄花倒水莲内生真菌中挖掘潜在新型抑菌活性和抗氧化活性物质奠定了基础。     

Characterisation of Pectobacterium wasabiae and Pectobacterium carotovorum subsp. carotovorum isolates from diseased potato plants in Finland

To identify bacteria causing soft rot and blackleg in potato in Finland, pectinolytic enterobacteria were isolated from diseased potato stems and tubers. In addition to isolates identified as Pectobacterium atrosepticum and Dickeya sp., many of the isolated strains were identified as Pectobacterium carotovorum subsp. carotovorum. Phylogenetic analysis and biochemical tests indicated that one of the isolates from potato stems resembled Pectobacterium wasabiae. Furthermore, two blackleg‐causing P. carotovorum strains recently isolated in Europe clustered with P. wasabiae, suggesting that at least some of these isolates were originally misidentified. All the other Finnish P. carotovorum isolates resembled the subsp. carotovorum type strain in biochemical tests but could be clustered into two distinct groups in the phylogenetic analysis. One of the groups mainly contained strains isolated from diseased tubers, whereas the other mainly included isolates from potato stems. In contrast to the tuber isolates, the stem isolates lacked genes in Type III secretion genes, were not able to elicit a hypersensitive response in tobacco leaves and produced only small amounts of autoinducers in the stationary phase in vitro. P. wasabiae isolate was able to cause similar amount of blackleg‐like symptoms as P. atrosepticum in a field experiment with vacuum‐infiltrated tubers, whereas both P. atrosepticum and P. carotovorum isolates reduced emergence and delayed growth more than P. wasabiae. Our findings confirm the presence of P. wasabiae in Finland and show that the Finnish P. carotovorum subsp. carotovorum isolates can be divided into two groups with specific characteristics and possibly also different ecologies.