Symbiotic and genetic diversity of Rhizobium galegae isolates collected from the Galega orientalis gene center in the Caucasus

This paper explores the relationship between the genetic diversity of rhizobia and the morphological diversity of their plant hosts. Rhizobium galegae strains were isolated from nodules of wild Galega orientalis and Galega officinalis in the Caucasus, the center of origin for G. orientalis. All 101 isolates were characterized by genomic amplified fragment length polymorphism fingerprinting and by PCR-restriction fragment length polymorphism (RFLP) of the rRNA intergenic spacer and of five parts of the symbiotic region adjacent to nod box sequences. By all criteria, the R. galegae bv. officinalis and R. galegae bv. orientalis strains form distinct clusters. The nod box regions are highly conserved among strains belonging to each of the two biovars but differ structurally to various degrees between the biovars. The findings suggest varying evolutionary pressures in different parts of the symbiotic genome of closely related R. galegae biovars. Sixteen R. galegae bv. orientalis strains harbored copies of the same insertion sequence element; all were isolated from a particular site and belonged to a limited range of chromosomal genotypes. In all analyses, the Caucasian R. galegae bv. orientalis strains were more diverse than R. galegae bv. officinalis strains, in accordance with the gene center theory.     

Description of two biovars in the Rhizobium galegae species: biovar orientalis and biovar officinalis

Twenty-six Rhizobium galegae strains, representing the center of origin of the host plants Galega orientalis and G. officinalis as well as other geographic regions, were used in a polyphasic analysis of the relationships of R. galegae strains. Phage typing, lipopolysaccharide (LPS) profiling, pulsed field gel electrophoresis (PFGE) profiling and rep-PCR (use of repetitive sequences as PCR primers for genomic fingerprinting) with REP and ERIC primers investigated nonsymbiotic properties, whereas plasmid profiling and hybridisation with a nif gene probe, and with nodB, nodD, nod box and an IS sequence from the symbiotic region as probes, were used to reveal the relationships of symbiotic genes. The results were used in pairwise calculations of distances between the strains, and the distances were visualised as a dendrogram. Indexes of association were compared for all tests pooled, and for chromosomal tests and symbiotic markers separately, to display the input of the different categories of tests on the grouping of the strains. Our study shows that symbiosis related genetic traits in R. galegae divide strains belonging to the species into two groups, which correspond to strains forming an effective symbioses with G. orientalis and G. officinalis respectively. We therefore propose that Rhizobium galegae strains forming an effective symbiosis with Galega orientalis are called R. galegae bv. orientalis and strains forming an effective symbiosis with Galega officinalis are called R. galegae bv. officinalis.     

Symbiotic and Genetic Diversity of Rhizobium galegae Isolates Collected from the Galega orientalis Gene Center in the Caucasus

This paper explores the relationship between the genetic diversity of rhizobia and the morphological diversity of their plant hosts. Rhizobium galegae strains were isolated from nodules of wild Galega orientalis and Galega officinalis in the Caucasus, the center of origin for G. orientalis. All 101 isolates were characterized by genomic amplified fragment length polymorphism fingerprinting and by PCR-restriction fragment length polymorphism (RFLP) of the rRNA intergenic spacer and of five parts of the symbiotic region adjacent to nod box sequences. By all criteria, the R. galegae bv. officinalis and R. galegae bv. orientalis strains form distinct clusters. The nod box regions are highly conserved among strains belonging to each of the two biovars but differ structurally to various degrees between the biovars. The findings suggest varying evolutionary pressures in different parts of the symbiotic genome of closely related R. galegae biovars. Sixteen R. galegae bv. orientalis strains harbored copies of the same insertion sequence element; all were isolated from a particular site and belonged to a limited range of chromosomal genotypes. In all analyses, the Caucasian R. galegae bv. orientalis strains were more diverse than R. galegae bv. officinalis strains, in accordance with the gene center theory.     

Metabolic properties, maximum growth temperature and phage sensitivity of Rhizobium sp. (Galega) compared with other fast-growing rhizobia

Abstract Rhizobium strains nodulating Galega species were characterized by metabolic tests, maximum growth temperature determinations in a temperature gradient incubator and phage typing, and compared with other fast-growing rhizobia. By numerical taxonomy it was shown that the Galega Rhizobium strains are closely related to each other and unrelated to the recognized species of Rhizobium . The maximum growth temperature of rhizobia nodulating G. orientalis was 33.0–34.0°C and of rhizobia nodulating G. officinalis 35.0–37.0°C. The Galega rhizobia were only lysed by their own phages, and not by typing phages for other Rhizobium species. The G + C% of Rhizobium sp. ( Galega ) strainswas 63%.44 previously unclassified fast-growing rhizobia from tropical plants, which were included in the experiments, were shown to form a heterogenous group with diverse properties. The results confirm and extend previous findings, and suggest that Rhizobum sp. ( Galega ) should be considered a new species of Rhizobium .     

Contribution of lectin sugar-binding peptides structure determines specificity of rhizobium-legume symbiosis in Galega orientalis and G. officinalis

A significant heterogeneity between bacteria Rhizobium galegae bv. officinalis and R. galegae bv. orientalis forming the nitrogen-fixing symbiosis with Galega officinalis and G. orientalis, respectively, and not forming any single cross-inoculation group, was found by means of RAPD and RFEL methods. The high level of sequence similiraty between lectins of these plants indicates at their close relationship. However the sequences of lectin sugar binding peptides (SBP) of G. orientalis (TYCNPGWDPRDR) and G. officinalis (TFYNEEWDLVIKDEH) were highly diverged. Amino acids of SBP which are involved in linkage of Ca2+ and Mn2+ ions responsible for stabilization of spatial structure of carbohydrate-binding "pocket", keep their position in peptide. It suggests that lectins participate in Rhizobium-legume symbiosis and that carbohydrate-binding site plays a key role in this process.     

Cloning of AFLP markers detected by fluorescence capillary electrophoresis

The available methods to isolate specific amplified fragment length polymorphism (AFLP) markers can be used only if markers are detected by radioactive labeling, silver staining, or ethidium bromide staining; these methods are useless if modern and automated genetic analyzers are used to detect AFLP markers by fluorescent labeling. We have developed a method that allows for isolation and cloning of specific AFLP markers obtained with a laser-induced fluorescence capillary electrophoresis system. This procedure has been tested on 5Arabidopsis thaliana polymorphic AFLP markers, and the nucleotide sequences obtained from these cloned markers were identified and located in theArabidopsis genome.     

Silver stained polyacrylamide gels and fluorescence-based automated capillary electrophoresis for detection of amplified fragment length polymorphism patterns obtained from white-rot fungi in the genus Trametes

Silver stained denaturing polyacrylamide gels (PAGEs) and fluorescent denaturing automated capillary electrophoresis (CE) were used to detect amplified fragment length polymorphism (AFLP) patterns obtained from white-rot fungi belonging to the genus Trametes. AFLP fingerprinting detected by the fluorescence-based method as well as by silver staining showed a high discriminatory power in differentiating nine strains of Trametes ochracea, nine strains of Trametes hirsuta and ten isolates of Trametes versicolor. UPGMA dendrograms derived from fluorescently labelled and silver stained AFLP patterns were similar, but a few differences were detected especially in the clustering of T. ochracea and T. hirsuta strains. Compared to silver-stained AFLP, detection of fluorescent AFLP was fast, reliable and easy to perform and it facilitated surveying with a computerized analysis system. Fluorescent CE seems to be well suited for studying similarity between Trametes species.     

Restriction fragment length polymorphism analysis of Rhizobium galegae strains.

Total DNA of various Rhizobium galegae strains representing different geographical origins, and taxonomic divergence was digested with three restriction enzymes separately, Southern blotted, and hybridized with six heterologous probes. The sequence divergences for different pairwise comparisons were calculated from proportions of conserved hybridizing fragments. The unweighted pair group method was used to group the strains. The symbiotic common nod and nifHDK probes used were highly conserved and grouped the strains according to the host plant, Galega orientalis or G. officinalis. The grouping derived from combined data of the constitutive hemA, glnA, ntrC, and recA probes was similar to that obtained in total DNA-DNA hybridization experiments. The constitutive probes grouped the strains in a different order than did the symbiotic probes, a result that may reflect interstrain transfer of symbiotic sequences in the course of evolution.     

双孢蘑菇遗传多样性分析

应用AFLP指纹技术对双孢蘑菇的20个野生菌株和5个栽培品种的遗传多样性进行了研究。AFLP指纹揭示出20个野生异核体菌株所固的基因型。5个商业品种表现出比较一致的AFLP指纹,但也显示出它们之间的一些差别。由单孢分离获得的同核体菌株携带着部分异核体菌株的AFLP指纹;由同一子实体分离得到的大部分单孢菌株是异核体菌株,它们具有与其亲本一致的AFLP指纹。UPGMA分析揭示出2个与地理分布（美洲、欧洲）和相对应的组。研究结果表明：（1）在野生菌株之间存在着明显的遗传差异;（2）大多数单孢分离的菌株具有与母本一致的遗传物质;（3）野生菌株间的遗传变异大于栽培品种间的变异;（4）在双孢蘑菇的遗传多样性分析中,AFLP技术是非常有效的工具。     

Assessment of competitiveness of rhizobia infecting Galega orientalis on the basis of plant yield, nodulation, and strain identification by antibiotic resistance and PCR.

Competition between effective and ineffective Rhizobium galegae strains nodulating Galega orientalis was examined on the basis of plant growth, nodulation, antibiotic resistance, and PCR results. In a preliminary experiment in Leonard's jars, ineffective R. galegae strains HAMBI 1207 and HAMBI 1209 competed in similar manners with the effective strain R. galegae HAMBI 1174. In a pot experiment, soil was inoculated with 0 to 10(5) HAMBI 1207 cells per g before G. orientalis was sown. Seeds of G. orientalis were surface inoculated with 2 x 10(4) and 2 x 10(5) cells of HAMBI 1174 per seed (which represent half and fivefold the commercially recommended amount of inoculant, respectively). Plant yield and nodulation by the effective strain were significantly reduced, with as few as 10(2) ineffective rhizobia per g of soil, and the inoculation response was not improved by the 10-fold greater dose of the inoculant. Bacteria occupying the nodules were identified by antibiotic resistance and PCR with primers specific for R. galegae HAMBI 1174, R. galegae, and genes coding for bacterial 16S rRNA (bacterial 16S rDNA). Sixty-two large nodules examined were occupied by the effective strain HAMBI 1174, as proven by antibiotic resistance and amplification of the strain-specific fragment. From 20 small nodules, only the species-specific fragment could be amplified, and isolated bacteria had the same antibiotic resistance and 16S PCR restriction pattern as strain HAMBI 1207. PCR with our strain-specific and species-specific primers provides a powerful tool for strain identification of R. galegae directly from nodules without genetic modification of the bacteria.     

新生隐球菌的AFLP分析

目的评估AFLP-DNA指纹技术在新生隐球菌分类中应用情况。方法新生隐球菌基因组DNA用双酶酶切,双链接头连于其酶切末端,用与接头和酶切位点互补的引物扩增DNA片段,其产物在高分辨的变性聚丙酰胺凝胶上电泳分离,然后进行银染。结果分析来自5种血清型和临床分离株的18株新生隐球菌,可见有30多条大小在30～500bp的DNA-AFLP指纹,相同的血清型有不同的指纹图谱,来自同一患者不同病期的两株分离株和来自同一患者患者的不同部位的两株分离株都显示出相同的带型。结论显示了AFLP的高分辨率,是适用于新生隐球菌流行病学调查的有力工具。     

Characterisation of wild legume nodulating bacteria (LNB) in the infra-arid zone of Tunisia

We report on the isolation and the characterization of nitrogen-fixing root nodule bacteria isolated from natural legumes in a region of South Tunisia corresponding to the infra-arid climatic zone. A collection of 60 new bacterial root nodule isolates were obtained from 19 legume species belonging to the genera Acacia, Anthyllis, Argyrolobium, Astragalus, Calycotome, Coronilla, Ebenus, Genista, Hedysarum, Hippocrepis, Lathyrus, Lotus, Medicago, Ononis. The isolates were characterised by (1) comparative 16S ARDRA using 7 enzymes, (2) total cell protein SDS-PAGE analysis and (3) 16S rDNA sequencing. The results show that these isolates are diverse and belong to the genera Rhizobium, Sinorhizobium, Mesorhizobium and Bradyrhizobium. Bradyrhizobium were further characterised by 16S-23S rDNA IGS sequencing. Surprisingly strains nodulating Astragalus cruciatus, Lotus creticus and Anthyllis henoniana were identified as Rhizobium galegae, a species recorded only as endosymbiont of Galega officinalis and G. orientalis in northern regions so far.     

东方山羊豆Cu/ZnSOD基因的克隆及表达分析

超氧化物歧化酶是一种广泛存在于真核生物中的金属酶类,在植物的抗逆性中起到重要的作用。文章采用RACE方法,从东方山羊豆中克隆了Cu/ZnSOD基因,并对其进行了初步分析。该基因cDNA序列全长935 bp,开放阅读框600 bp,编码199个氨基酸,蛋白质分子量为20.35 kDa。通过实时荧光定量PCR结果分析,该基因在东方山羊豆叶中表达量最多,茎中次之,根中最少。在NaCl和PEG诱导下,Cu/ZnSOD基因表达量先上调后下降。NaCl诱导24 h后,该基因的表达量显著低于对照。ABA胁迫抑制了该基因的表达。亚细胞定位结果表明,Cu/ZnSOD蛋白定位于叶绿体中。实验结果证明,Cu/ZnSOD基因主要在东方山羊豆的绿色组织中表达,在抵抗渗透性胁迫方面起到一定作用。     

Galega orientalis is more diverse than Galega officinalis in Caucasus--whole-genome AFLP analysis and phylogenetics of symbiosis-related genes

Legume plants can obtain combined nitrogen for their growth in an efficient way through symbiosis with specific bacteria. The symbiosis between Rhizobium galegae and its host plant Galega is an interesting case where the plant species G. orientalis and G. officinalis form effective, nitrogen‐fixing, symbioses only with the appropriate rhizobial counterpart, R. galegae bv. orientalis and R. galegae bv. officinalis, respectively. The symbiotic properties of nitrogen‐fixing rhizobia are well studied, but more information is needed on the properties of the host plants. The Caucasus region in Eurasia has been identified as the gene centre (centre of origin) of G. orientalis, although both G. orientalis and G. officinalis can be found in this region. In this study, the diversity of these two Galega species in Caucasus was investigated to test the hypothesis that in this region G. orientalis is more diverse than G. officinalis. The amplified fragment length polymorphism fingerprinting performed here showed that the populations of G. orientalis and R. galegae bv. orientalis are more diverse than those of G. officinalis and R. galegae bv. officinalis, respectively. These results support the centre of origin status of Caucasus for G. orientalis at a genetic level. Analysis of the symbiosis‐related plant genes NORK and Nfr5 reveals remarkable diversity within the Nfr5 sequence, although no evidence of adaptive evolution could be found.     

Genomic relatedness within five common Finnish Campylobacter jejuni pulsed-field gel electrophoresis genotypes studied by amplified fragment length polymorphism analysis, ribotyping, and serotyping

Thirty-five Finnish Campylobacter jejuni strains with five SmaI/SacII pulsed-field gel electrophoresis (PFGE) genotypes selected among human and chicken isolates from 1997 and 1998 were used for comparison of their PFGE patterns, amplified fragment length polymorphism (AFLP) patterns, HaeIII ribotypes, and heat-stable (HS) serotypes. The discriminatory power of PFGE, AFLP, and ribotyping with HaeIII were shown to be at the same level for this selected set of strains, and these methods assigned the strains into the same groups. The PFGE and AFLP patterns within a genotype were highly similar, indicating genetic relatedness. The same HS serotypes were distributed among different genotypes, and different serotypes were identified within one genotype. HS serotype 12 was only associated with the combined genotype G1 (PFGE-AFLP-ribotype). These studies using polyphasic genotyping methods suggested that common Finnish C. jejuni genotypes form genetic lineages which colonize both humans and chickens.     

猕猴桃叶DNA的AFLP分析

以猕猴桃幼叶为材料提取基因组DNA并进行AFLP扩增。对主要实验步聚包括DNA纯化、DNA的酶切、酶切片段与接头的连接、PCR扩增、电泳、以及银染等方面的反应参数进行比较和优选,初步摸索出适合于猕猴桃叶为材料的AFLP程序,并得到较为清晰可辩的AFLP指纹图谱,为开展猕猴桃遗传多态性研究和在分子水平上开展物种生物学分析提供一个实用的手段。     

Enhancement of galegine production in cell suspension culture of Galega officinalis through elicitation

In Vitro Cellular & Developmental Biology - Plant - Galega officinalis L. is known for its dominant secondary metabolite “galegine” a guanidine derivative used in the synthesis of...     

Invasive Galega officinalis (Goat's rue) plants in Canada form a symbiotic association with strains of Neorhizobium galegae sv. officinalis originating from the Old World

The toxic legume plant, Galega officinalis, is native to the Eastern Mediterranean and Black Sea regions. This legume is considered to be a noxious weed, and its establishment in Canada may have resulted from ornamental planting and/or field trials. In its native range, a highly specific nitrogen‐fixing symbiosis with the bacterium, Neorhizobium galegae symbiovar (sv.) officinalis, is required for normal growth. In North America, nothing is known about the bacterial symbionts of G. officinalis. Our purpose was to determine the species and symbiovar identity of symbiotic bacteria associated with invasive plants of G. officinalis at five sites in the province of Ontario, Canada.  Sequence analysis of four housekeeping (16S rRNA, atpD, glnII, and recA) and two symbiosis (nodC and nifH) genes showed that all 50 bacterial isolates from root nodules of G. officinalis at the five Canadian sites were identical to strains of N. galegae sv. officinalis originating either from Europe or the Caucasus. Plant tests indicated that soils collected from four Canadian sites without a history of agriculture or presence of G. officinalis were deficient in symbiotic bacteria capable of eliciting nodules on this plant. Collectively our data support the hypothesis of anthropogenic co‐introduction of G. officinalis and its specific symbiotic bacterium into Canada from the Old World. Factors that may limit the spread of G. officinalis in new environments are discussed.     

东方山羊豆盐诱导抑制差减杂交文库构建及其表达序列标签分析

为筛选东方山羊豆盐诱导差异性基因,以250 mmol/L NaCl处理的东方山羊豆cDNA为实验组,未经诱导刺激的为驱动组,利用抑制性消减杂交技术(SSH)构建消减文库并对其部分阳性克隆进行了ESTs序列分析。该消减文库克隆的重组率为92%,插入片段大部分集中在0.2～1kb之间。随机挑取500个克隆进行测序及同源性分析,获得258个cleanESTs,经聚类、拼接,去除冗余序列,共获得132个Unigene,其中含有32个contigs和100个singlets,该文库的冗余度为24%。对其进行功能预测及分类,得到大量参与信号转导、转录调控、渗透和代谢调节、机体防御以及光作用等过程的相关基因。随机选择非重复的4个差异表达的序列设计引物,以半定量PCR方法验证其消减效率,结果显示,诱导组的表达量显著高于非诱导组,表明该文库有较高质量,且所采用的技术手段有助于快速发现东方山羊豆新功能基因。