Phylogenetic relationships and population structure of Ralstonia solanacearum isolated from diverse origins in Taiwan

Bacterial wilt caused by Ralstonia solanacearum is a destructive disease for many crops. The aim of this study was to investigate the phylogenetic relationships and genetic structure of an R. solanacearum population from diverse origins in Taiwan. All 58 tested isolates belonged to phylotype I, except the two biovar 2 isolates from potato. These belonged to phylotype IIB sequevar 1 and were identical to known potato brown rot strains, which were probably introduced. Phylotype I isolates were grouped into 10 sequevars. Sequevar 15 was predominant (34 out of 56 isolates). Its distribution covered the whole island and it was largely associated with solanaceous crops such as tomato, and with tomato field soil. A total of 14 haplotypes were identified based on a partial endoglucanase gene sequence. Parsimony network analysis revealed that haplotype A was the oldest haplotype in the local population. It encompassed all but one of the sequevar 15 isolates. Large variation in virulence on tomato was observed among the 58 isolates, and seven pathotypes were identified. Significant genetic differentiation was detected among pathotypes. Moreover, genetic differentiation was detected between biovar 3 and biovar 4 subgroups and between the strains associated with solanaceous and non‐solanaceous species, but none was detected between strains from different geographic origins. The results suggest that the phylotype I population in Taiwan is homogeneous, while mutation and local adaptation to specific ecological niches keep shaping the population.     

福建青枯雷尔氏菌的遗传多样性及其生防放线菌的筛选

为了明确福建青枯雷尔氏菌（简称青枯菌）的遗传多样性,综合菌株的演化型、生化型及基于内源葡聚糖酶基因egl的序列变种鉴定,对福建省8个地区的番茄、辣椒和茄子寄主分离的56株青枯菌进行分析。结果表明：供试的56株青枯菌均属于演化型Ⅰ;53株为生化型Ⅲ（占94.64%）,1株为生化型Ⅱ,2株为非标准生化型;从序列变种来看,4株来自茄子的青枯菌均属序列变种15,24株来自辣椒的青枯菌中,23株属于序列变种14,1株为序列变种16,28株番茄青枯菌鉴定出7个序列变种。进一步,选择上述鉴定的生化型Ⅲ和生化型Ⅱ的代表菌株为靶标菌进行生防菌筛选。结果表明,供试14株放线菌中,筛选到1株对生化Ⅲ青枯菌有拮抗作用的放线菌FJAT-31535。基于菌落形态特征和16S rRNA基因序列相似性分析,菌株FJAT-31535属于链霉菌属（Streptomyces sp.）。     

Diversity of Ralstonia solanacearum causing potato bacterial wilt in Iran and the first record of phylotype II/biovar 2T strains outside South America

The diversity of 40 strains of Ralstonia solanacearum causing bacterial wilt of potato in the major potato-growing areas of Iran was assessed. Based on rep-PCR genomic fingerprinting, strains fell into two distinct groups. The first group contained 37 of the 40 strains and the second consisted of three strains from a narrow tropical region in Iran. The three strains from the narrow tropical region were found to be phenotypically and genotypically most similar to R. solanacearum biovar 2T strains, whereas all other strains were phenotypically and genotypically identified as being R. solanacearum biovar 2/race 3. Phylogenetic analysis of endoglucanase gene sequence information of two of the strains from the tropical region revealed that they belonged to phylotype II of the R. solanacearum species complex and had 100% sequence similarity to a biovar 2T strain from potato in Peru. This is the first report of the presence of R. solanacearum phylotype II/biovar 2T in Iran and the first report of the existence of this group of R. solanacearum outside South America.     

Host specificity and genetic diversity of race 4 strains of Ralstonia solanacearum

Ralstonia solanacearum race 4 isolates were obtained from Zingiberaceae plants in India during bacterial wilt outbreaks. Polyphasic phenotypic and genotypic analysis revealed intraracial diversity and dominance of biovar 3 over biovar 4. Biovar 3 strains were isolated from very severely wilted Zingiberaceae plants in the field and found to be present across diverse geographical, host and seasonal boundaries. It was hypothesized that these isolates belong to a single, ‘fast wilting’, lineage. Using one ‘fast wilting’ isolate in controlled inoculations, rapid wilt was observed in ginger within 5–7 days. Wilting was also observed in several other closely and distantly related hosts such as turmeric (Curcuma longa), aromatic turmeric (Curcuma aromatica), black turmeric (Curcuma caesia), sand ginger (Kaempferia galanga), white turmeric (Curcuma zeodaria), awapuhi (Zingiber zerumbet), greater galangal (Alpinia galanga), globba (Globba sp.), small cardamom (Elettaria cardamomum) and large cardamom (Ammomum subulatum) of the Zingiberaceae family, and in tomato (Solanum lycopersicum). Molecular analysis, including multiplex PCR‐based phylotyping, sequence analysis of 16S rDNA, 16–23S intergenic spacer and the recN gene, and multilocus sequence typing, revealed minimal differences between fast wilting isolates, confirming that almost all belong to the same lineage. Biovar 4 was isolated from plants showing slow wilt progression and self‐limiting wilting in restricted geographical locations instead, and was identified to be genetically distinct from the fast wilting biovar 3 isolates. To the authors' knowledge, this is the first report of host range and genetic analysis of R. solanacearum race 4 in India.     

福建及贵州等地烟草青枯菌系统发育分析

[目的]探寻烟草上青枯菌的系统发育.[方法]采用演化型分类框架对福建及贵州等地的62个烟草青枯病菌株进行鉴定分析.[结果]基于内切葡聚糖酶基因系统发育学的分析结果表明:所有参试菌株均归属于青枯菌亚洲分支的4个序列变种,分别为序列变种15、17、34和44;尚未发现归属于美洲或非洲分支的烟草青枯病菌株.其中序列变种15和17为优势菌系,序列变种34的菌株都来自福建省,只发现3个菌株属于序列变种44.基于avrA基因的氨基酸序列比对结果表明4个序列变种的avrA基因都属于RS1000类型.[结论]本研究表明福建及贵州等地烟草上的青枯菌存在一定的遗传分化.     

我国长江流域和南方地区花生青枯菌遗传多样性分析

为明确不同青枯菌的遗传多样性和其在花生植株上的致病力差异,采用国际上新的青枯菌演化型分类模式,对从我国长江流域和南方地区9个花生种植区分离的95株花生青枯菌Ralstonia solanacearum菌株进行遗传多样性分析,基于内源葡聚糖酶基因egl对青枯菌进行系统发育研究,并对供试青枯菌的致病力进行测定。结果表明,所有95株菌株均属于青枯菌演化型I型,即亚洲分支类型。在序列变种分类上,所检测的9个花生种植区中有8个种植区的花生青枯菌菌株属于序列变种14,仅有1个种植区(广西壮族自治区贺州市)的花生青枯菌菌株属于序列变种48,表明我国长江流域和南方地区花生青枯菌群体遗传多样性水平较低。青枯菌致病力测定结果表明,来自赣州市的菌株GZ-1、贺州市的菌株HZ-2和宜昌市的菌株YC接种到花生植株14 d后,花生的病情指数分别为43.8、75.0和87.5,而来自其它6个花生种植区的菌株接种花生后,其病情指数均为100.0,表明菌株GZ-1和HZ-2的致病力较弱,而其它7个花生种植区代表性菌株的致病力均较强。     

植物青枯菌遗传多样性及致病基因组学研究进展

植物细菌性青枯病是由茄科雷尔氏菌（Ralstonia solanacearum Yabuuchi et al.）引起的一种世界性重大病害。作为复合种,青枯菌在与寄主长期协同进化过程中,表现出广泛的生态和寄主适应性。Fengan和Prior提出青枯菌演化型分类框架,用以描述青枯菌种以下的遗传多样性。青枯菌种内表型特征差异的本质是其基因组较其它植物病原细菌更为复杂和更具可塑性。笔者对近期青枯菌遗传多样性和致病基因组学方面的研究进展进行了归纳和讨论。     

Phylogenetic and pathogenic variability of strains of Ralstonia solanacearum causing moko disease in Colombia

Moko disease, caused by the bacterium Ralstonia solanacearum, is one of the most devastating diseases of Musa spp. in Colombia, where banana and plantain are major crops. The disease epidemiology is poorly understood and little is known about the diversity of the bacterial populations associated with this disease. This study assessed the diversity, phylogenetic relationship and pathogenicity of R. solanacearum strains associated with moko disease in Colombia. For this, the genetic diversity of 65 isolates obtained from four banana/plantain-growing regions was evaluated by using multiplex PCR and analysing the partial sequences of the mutS, rplB and egl genes. These analyses revealed that all the strains belonged to the R. solanacearum phylotype II, sequevars 4 and 6. In addition, the phylogenetic analysis assorted the strains into three subgroups, which matched the region of isolation: (i) central region (i.e. Eastern plains and Andes, IIB/4); (ii) northwest (i.e. Urabá and a few strains from Magdalena, IIB/4); and (iii) north coast (Magdalena and a few strains from Urabá, IIA/6). In addition, this evolutionary pattern was associated with pathogenicity, as 63 of the 65 isolates caused wilting of banana and plantain plants under greenhouse conditions, whilst only 32, those isolated from the central region, caused such symptoms in tomato plants. In conclusion, this study shows that banana and plantain crops in Colombia foster genetically diverse strains of R. solanacearum that belong to at least three different genetic groups, which show biogeographic and host range association.     

Wide genetic diversity of Ralstonia solanacearum strains affecting tomato in Trinidad,West Indies

The genetic diversity of Ralstonia solanacearum causing bacterial wilt of tomato in Trinidad was assessed using the hierarchical phylotyping scheme and rep‐PCR DNA fingerprinting. Seventy‐one isolates were collected in 2003 on infected tomato crops in the four main vegetable cropping areas of Trinidad (North, Central, South‐East and South). Two phylotypes were present, with phylotype II being much more prevalent (66%) than phylotype I (34%). Phylotype II strains consisted mainly of sequevar 7 in Central and South‐East, and sequevar 35 in North, South‐East and South. This is the first report of sequevar 7 outside south‐eastern USA. In contrast, no ‘brown rot’ (phylotype IIB/1, race 3 biovar 2) or emerging strains of phylotype IIB/4NPB were identified. Rep‐PCR data were used to assess population genetic structure. No significant clustering by geographical distance was found, suggesting regular gene flow among cropping areas (via waterways, plant or soil). However, the population from Central was significantly differentiated from the others, containing only phylotype II/seq 7 strains, with a high degree of clonality, suggesting a possible recent introduction from abroad. The South population was less aggressive and more genetically diverse, suggesting horizontal gene transfers within the population, even among isolates of different phylotypes. Phylotype I and phylotype II populations differed slightly in clonality levels, with indications of more frequent recombination events within phylotype I populations. Possible factors influencing genetic diversity and distribution within the island are discussed.     

番茄青枯病菌的分子鉴定及其生物学特性研究

[目的]分离鉴定番茄青枯病的病原菌,并分析其生物学特性,以期为番茄青枯病防治和番茄抗青枯病育种提供理论基础.[方法]采用平板稀释法从番茄青枯病株中分离得到病原菌,并对分离菌株的16S rDNA序列、碳水化合物利用、致病性、演化型及序列变种等进行分析.[结果]从感染了青枯病的番茄植株中分离到9个菌株Tom l～Tom 9,根据分离菌株在TTC培养基上的菌落形态、致病性测定和分子鉴定,将9个菌株鉴定为茄科雷尔氏菌(Ralstoniasolanacearum);9个分离菌株可以利用3种双糖和3种己醇,并可侵染烟草、马铃薯、番茄、辣椒和茄子;9个分离菌株均可同时扩增得到144 bp的演化型Ⅰ的特异条带和280bp的青枯菌特异条带.[结论]从感病番茄植株中分离得到的9个菌株为茄科雷尔氏菌(Ralstonia solanacearum),属于生化型Ⅲ、生理小种1、演化型Ⅰ和序列变种17.