Coexistence of Wolbachia with Buchnera aphidicola and a secondary symbiont in the aphid Cinara cedri

Intracellular symbiosis is very common in the insect world. For the aphid Cinara cedri, we have identified by electron microscopy three symbiotic bacteria that can be characterized by their different sizes, morphologies, and electrodensities. PCR amplification and sequencing of the 16S ribosomal DNA (rDNA) genes showed that, in addition to harboring Buchnera aphidicola, the primary endosymbiont of aphids, C. cedri harbors a secondary symbiont (S symbiont) that was previously found to be associated with aphids (PASS, or R type) and an alpha-proteobacterium that belongs to the Wolbachia genus. Using in situ hybridization with specific bacterial probes designed for symbiont 16S rDNA sequences, we have shown that Wolbachia was represented by only a few minute bacteria surrounding the S symbionts. Moreover, the observed B. aphidicola and the S symbionts had similar sizes and were housed in separate specific bacterial cells, the bacteriocytes. Interestingly, in contrast to the case for all aphids examined thus far, the S symbionts were shown to occupy a similarly sized or even larger bacteriocyte space than B. aphidicola. These findings, along with the facts that C. cedri harbors the B. aphidicola strain with the smallest bacterial genome and that the S symbionts infect all Cinara spp. analyzed so far, suggest the possibility of bacterial replacement in these species.     

Extraordinary proliferation of microorganisms in aposymbiotic pea aphids,Acyrthosiphon pisum

Aposymbiotic pea aphids, which were deprived of their intracellular symbiotic bacterium, Buchnera, exhibit growth retardation and no fecundity. High performance liquid chromatographic (HPLC) analysis revealed that these aposymbiotic aphids, when reared on broad bean plants, accumulated a large amount of histamine. To assess the possibility of extraordinary proliferation of microorganisms other than Buchnera, we enumerated eubacteria and fungi in aphids using the real-time quantitative PCR method that targets genes encoding small-subunit rRNAs. The result showed that these microorganisms were extremely abundant in the aposymbiotic aphids reared on plants. Microbial communities in aposymbiotic aphids were further profiled by phylogenetic analysis of small-subunit rDNAs. Of 172 nonchimeric sequences of fungal 18S rDNAs, 138 (80.2%) belonged to the phylum Ascomycota. Among them, 21 clustered within a monophyletic group consisting of insect-pathogenic fungi and yeast-like symbionts of homopteran insects. Thirty-one (18.0%), two (1.2%), and one (0.6%) clones were clustered within the Basidiomycota, Zygomycota, and Oomycota, respectively. Of 167 nonchimeric sequences of eubacterial 16S rDNAs, 84 (50.3%) belonged to the gamma-subdivision of Proteobacteria to which most primary endosymbionts of insects and prolific histamine producers belong. Forty (24.0%), 25 (15.0%), 10 (6.0%), and five (3.0%) clones were clustered within alpha-Proteobacteria, Cytophaga-Flavobacterium-Bacteroides (CFB) group, Actinobacteria, and beta-Proteobacteria, respectively. Three had no phylogenetic association with known taxonomic divisions. None of the sequences studied in this study coincided exactly with those deposited in GenBank.     

桃蚜自然种群初级和次级共生菌的分子鉴定

蚜虫不仅带有专性初级内共生菌,还常常带有不同类群的兼性次级共生菌。本研究采用真细菌16S rDNA的通用引物,从桃蚜Myzus persicae (Sulzer)烟草种群体内扩增出1.5 kb的共迁移目的条带,然后将其克隆,并在阳性克隆筛选时进行了RFLP分析。当采用EcoRⅠ进行单酶切分析时,目的片段被切割成～650 bp和～850 bp两个小片段;当采用EcoRⅠ和HindⅢ进行双酶切分析时,该蚜群共生菌酶切谱带被分成2组,其中1组(GroupⅠ)只具有一个EcoRⅠ酶切位点,而另1组(Group Ⅱ)不仅具有一个EcoRⅠ酶切位点,还具有一个HindⅢ酶切位点,而且GroupⅠ为优势共生菌群。在此基础上分别对2组共生菌的16S rDNA全序列（～1.5 kb）进行了测定,结果表明：GroupⅠ属于泛菌属Pantoea,与成团泛菌Pantoea agglomerans亲缘关系最近（同源性达99.70%）,而Group Ⅱ属于蚜虫的专性内共生菌,即Buchnera aphidicola（同源性达99.50%）。这是在蚜虫体内存在泛菌次级共生菌的首次报道。     

An effect of 16S rRNA intercistronic variability on coevolutionary analysis in symbiotic bacteria: molecular phylogeny of Arsenophonus triatominarum

The genes of ribosomal RNA are the most popular and frequently used markers for bacterial phylogeny and reconstruction of insect-symbiont coevolution. In primary symbionts, such as Buchnera and Wigglesworthia, genome economization leads to the establishment of a single copy of these sequences. In phylogenetic studies, they provide sufficient information and yield phylogenetic trees congruent with host evolution. In contrast, other symbiotic lineages (e.g., the genus Arsenophonus) carry a higher number of rRNA copies in their genomes, which may have serious consequences for phylogenetic inference. In this study, we show that in Arsenophonus triatominarum the degree of heterogeneity can affect reconstruction of phylogenetic relationships and mask possible coevolution between the symbiont and its host. Phylogenetic arrangement of individual rRNA copies was used, together with a calculation of their divergence time, to demonstrate that the incongruent 16S rDNA trees and low nucleotide diversity in the secondary symbiont could be reconciled with the coevolutionary scenario.     

Pantoea agglomerans‐associated bacteria in grape phylloxera (Daktulosphaira vitifoliae,Fitch)

1 Grape phylloxera lack intracellular symbionts, but the leaf‐galling form appears to be associated with a single microbial species. 2 16S and 18SrDNA sequences were used for identification of symbiotic material. 3 A single bacterial species, closely related to Pantoea agglomerans, was identified in adult parthenogenetic individuals, their eggs and leaf gall tissue of several populations. 4 A 16S rDNA primer pair was designed to test grape phylloxera populations more specifically for the presence of P. agglomerans. 5 16S rDNA sequences of the identified bacteria were very similar to already‐known secondary symbionts occurring in aphids, thrips and other insects. 6 The identified bacteria were culturable on simple media, which demonstrates that the relationship between grape phylloxera and P. agglomerans is not as firm as that of the obligately endosymbiotic Buchnera aphidicola and other aphids.     

The secondary endosymbiotic bacterium of the pea aphid Acyrthosiphon pisum (Insecta: homoptera)

The secondary intracellular symbiotic bacterium (S-symbiont) of the pea aphid Acyrthosiphon pisum was investigated to determine its prevalence among strains, its phylogenetic position, its localization in the host insect, its ultrastructure, and the cytology of the endosymbiotic system. A total of 14 aphid strains were examined, and the S-symbiont was detected in 4 Japanese strains by diagnostic PCR. Two types of eubacterial 16S ribosomal DNA sequences were identified in disymbiotic strains; one of these types was obtained from the primary symbiont Buchnera sp., and the other was obtained from the S-symbiont. In situ hybridization and electron microscopy revealed that the S-symbiont was localized not only in the sheath cells but also in a novel type of cells, the secondary mycetocytes (S-mycetocytes), which have not been found previously in A. pisum. The size and shape of the S-symbiont cells were different when we compared the symbionts in the sheath cells and the symbionts in the S-mycetocytes, indicating that the S-symbiont is pleomorphic under different endosymbiotic conditions. Light microscopy, electron microscopy, and diagnostic PCR revealed unequivocally that the hemocoel is also a normal location for the S-symbiont. Occasional disordered localization of S-symbionts was also observed in adult aphids, suggesting that there has been imperfect host-symbiont coadaptation over the short history of coevolution of these organisms.     

Molecular typing of Yersinia frederiksenii strains by means of 16s rDNA and gyrB genes sequence analyses

The phenospecies Yersinia frederiksenii is known to comprise three genospecies, indistinguishable on the basis of phenotypic characteristics. In previous works, 13 strains, identified biochemically as Y. frederiksenii, were characterized using Multilocus enzyme electrophoresis and Ribotyping. In order to elucidate the phylogenetic position of these strains we performed their molecular typing by means of 16S rDNA and gyrB sequences analyses. Results demonstrated that gyrB is a better phylogenetic marker than 16S rDNA. The classification achieved by gyrB sequences analyses was in agreement with results obtained with more laborious methods. Moreover, a good phylogenetic identification could be reached also with partial gyrB sequences of only 350 bp.     

Genotypic differentiation of twelve Clostridium species by polymorphism analysis of the triosephosphate isomerase (tpi) gene

Housekeeping genes encoding metabolic enzymes may provide alternative markers to 16S ribosomal DNA (rDNA) for genotypic and phylogenetic characterization of bacterial species. We have developed a PCR-restriction fragment length polymorphism (PCR-RFLP) assay, targeting the triosephosphate isomerase (tpi) gene, which allows the differentiation of twelve pathogenic Clostridium species. Degenerate primers constructed from alignments of tpi sequences of various gram-positive bacteria allowed the amplification of a 501 bp target region in the twelve Clostridium type strains. A phylogenetic tree constructed from the nucleotidic sequences of these tpi amplicons was well correlated with that inferred from analysis of 16S rDNA gene sequences. The analysis of tpi sequences revealed restriction sites of enzyme AluI that could be species-specific. Indeed, AluI digestion of amplicons from the twelve type strains provided distinct restriction patterns. A total of 127 strains (three to sixteen strains for each species) was further analyzed by PCR-RFLP of the tpi gene, and confirmed that each species could be characterized by one to three restriction types (RTs). The differences between RTs within species could be explained by point mutations in AluI restriction sites of the tpi sequences. PCR-restriction analysis of the tpi gene offers an accurate tool for species identification within the genus Clostridium, and provides an alternative marker to 16S rDNA for phylogenetic analyses.     

Anaerospora hongkongensis gen. nov. sp. nov., a novel genus and species with ribosomal DNA operon heterogeneity isolated from an intravenous drug abuser with pseudobacteremia

A bacterium was isolated from the blood culture of an intravenous drug abuser with pseudobacteremia. The cells were strictly anaerobic, straight or slightly curved, sporulating, Gram-negative rods. It grew on sheep blood agar as non-hemolytic, pinpoint colonies after 48 hr of incubation at 37 C in an anaerobic environment. It was motile but did not produce catalase or cytochrome oxidase. 16S ribosomal DNA (rDNA) sequencing revealed three different copies of 16S rDNA sequences. More than 90% of the differences among them were due to differences in the lengths of the sequences. Phylogenetically, the bacterium is clustered with Dendrosporobacter, Sporomusa, and Propionispora, the other three genera of anaerobic, sporulating, Gram-negative rods. There were 8.6-11.1% differences between the 16S rDNA sequences of the bacterium and that of D. quercicolus, 4.7-15.1% differences between the 16S rDNA sequences of it and those of S. acidovorans, S. aerivorans, S. malonica, S. ovata, S. paucivorans, S. silvacetica, S. spaeroides, and S. termitida, and 7.6-13.1% differences between the 16S rDNA sequences of it and those of P. hippei and P. vibrioides. The G+C content of the bacterium (mean +/- SD) was 46.8 +/- 3.2%. For these reasons, a new genus and species, Anaerospora hongkongensis gen. nov. sp. nov., is proposed, for which HKU15T is the type strain.     

Cellular tropism, population dynamics, host range and taxonomic status of an aphid secondary symbiont, SMLS (Sitobion miscanthi L type symbiont)

SMLS (Sitobion miscanthi L type symbiont) is a newly reported aphid secondary symbiont. Phylogenetic evidence from molecular markers indicates that SMLS belongs to the Rickettsiaceae and has a sibling relationship with Orientia tsutsugamushi. A comparative analysis of coxA nucleotide sequences further supports recognition of SMLS as a new genus in the Rickettsiaceae. In situ hybridization reveals that SMLS is housed in both sheath cells and secondary bacteriocytes and it is also detected in aphid hemolymph. The population dynamics of SMLS differ from those of Buchnera aphidicola and titer levels of SMLS increase in older aphids. A survey of 13 other aphids reveals that SMLS only occurs in wheat-associated species.     

Phylogenetic characterization of a new thermoacidophilic bacterium isolated from hot springs in Japan

Three strains of thermophilic-acidophilic bacteria isolated previously from different hot springs in Japan were characterized by molecular genetic methods. The strategy taken involved PCR amplification, sequencing and restriction pattern analysis of 16S rDNA, 16S-23S rDNA spacer polymorphism analysis and genomic DNA-DNA hybridization. A phylogenetic analysis based on 16S rDNA sequences showed that the new thermoacidophilic isolates formed a genetically coherent group at the species level and fell into a major cluster together with members of the genera Alicyclobacillus and Sulfobacillus with A. acidocaldarius and A. acidoterrestris as their closest relatives. The levels of binary sequence similarity between the isolates and the two Alicyclobacillus species were 97.6 to 97.9%, values considered low enough to warrant placement of the isolates in a distinct species of the genus Alicyclobacillus. The 16S rDNA restriction pattern analysis, but not 16S-23S rDNA spacer polymorphism analysis, was useful for differentiating the isolates from the established Alicyclobacillus species. DNA-DNA hybridization assays demonstrated a distinct phylogenetic position of our isolates as a genospecies within the genus Alicyclobacillus. On the basis of these results, the thermoacidophilic isolates should be classified into a new species of Alicyclobacillus. The results of this study suggest that this new genospecies of Alicyclobacillus is widely distributed in hot springs in Japan.     

毛蚜属Chaitophorus蚜虫(半翅目:蚜科:毛蚜亚科)与初级内共生菌Buchnera的演化关系

【目的】蚜虫体内共生菌种类丰富,二者关系十分密切。几乎所有蚜虫都具有一类专性的初级内共生菌Buchnera aphidicola,二者的专性共生关系使蚜虫-Buchnera成为研究共生关系演化的理想模型。本研究对蚜虫-Buchnera在低级阶元水平上的"平行演化假说"进行了验证。【方法】选取在杨属Populus或柳属Salix植物上营同寄主全周期生活的毛蚜属Chaitophorus蚜虫作为研究对象,基于不同来源的分子标记(蚜虫线粒体基因、核基因和内共生菌基因),运用最大似然法和贝叶斯法重建蚜虫和Buchnera的系统树,并利用Tree Map、Jane和Para Fit检验二者是否具有协同系统发生关系。【结果】Tree Map和Jane分析检测到毛蚜属蚜虫与Buchnera具有显著的共成种信号,Para Fit分析结果表明二者的总体关联极为显著。【结论】毛蚜属蚜虫与其初级内共生菌Buchnera在种级及以下水平上符合"平行演化假说",并且二者的演化关系不会受到寄主植物差异的影响。     

Independent origins and horizontal transfer of bacterial symbionts of aphids

Many insect groups have obligate associations with primary endosymbionts: mutualistic bacteria that are maternally transmitted and derived from an ancient infection. Often, the same insects are hosts to 'secondary' bacterial symbionts which are maternally transmitted but relatively labile within host lineages. To explore the dynamics of secondary symbiont associations in aphids, we characterized bacteria infecting 15 species of macrosiphine aphids using DNA sequencing, diagnostic polymerase chain reaction (PCR), diagnostic restriction digests, phylogenetic analyses, and electron microscopy to examine aphids from nature and from laboratory colonies. Three types of bacteria besides Buchnera were found repeatedly; all three fall within the Enterobacteriaceae. The R-type has a 16S rDNA less than 0.1% different from that of the secondary symbiont previously reported from Acyrthosiphon pisum and is related to Serratia species. The T-type includes a symbiont previously reported from a whitefly; the U-type comprises a new cluster near the T-type. The T-type was found in every one of 40 Uroleucon ambrosiae clones collected throughout the United States. In contrast, A. pisum individuals were infected by any combination of the three symbiont types. Secondary symbionts were maternally transmitted for 11 months within laboratory-reared A. pisum clones and were present in sexually produced eggs. PCR screens for a bacteriophage, APSE-1, indicated its presence in both A. pisum and U. ambrosiae containing secondary symbionts. Electron microscopy of R-type and T-type bacteria in A. pisum and in U. ambrosiae revealed rod-shaped organisms that attain extremely high densities within a few bacteriocytes.     

Communities of green sulfur bacteria in marine and saline habitats analyzed by gene sequences of 16S rRNA and Fenna-Matthews-Olson protein.

Communities of green sulfur bacteria were studied in selected marine and saline habitats on the basis of gene sequences of 16S rRNA and the Fenna- Matthews-Olson (FMO) protein. The availability of group-specific primers for both 16S rDNA and the fmoA gene, which is unique to green sulfur bacteria, has, for the first time, made it possible to analyze environmental communities of these bacteria by culture-independent methods using two independent genetic markers. Sequence results obtained with fmoA genes and with 16S rDNA were largely congruent to each other. All of the 16S rDNA and fmoA sequences from habitats of the Baltic Sea, the Mediterranean Sea, Sippewissett Salt Marsh (Massachusetts, USA), and Bad Water (Death Valley, California, USA) were found within salt-dependent phylogenetic lines of green sulfur bacteria established by pure culture studies. This strongly supports the existence of phylogenetic lineages of green sulfur bacteria specifically adapted to marine and saline environments and the exclusive occurrence of these bacteria in marine and saline habitats. The great majority of clone sequences belonged to different clusters of the Prosthecochloris genus and probably represent different species. Evidence for the occurrence of two new species of Prosthecochloris was also obtained. Different habitats were dominated by representatives from the Prosthecochloris group and different clusters or species of this genus were found either exclusively or as the clearly dominant green sulfur bacterium at different habitats.     

Phylogenetic characterization and in situ detection of a Cytophaga-Flexibacter-Bacteroides phylogroup bacterium in Tuber borchii vittad. Ectomycorrhizal mycelium

Mycorrhizal ascomycetous fungi are obligate ectosymbionts that colonize the roots of gymnosperms and angiosperms. In this paper we describe a straightforward approach in which a combination of morphological and molecular methods was used to survey the presence of potentially endo- and epiphytic bacteria associated with the ascomycetous ectomycorrhizal fungus Tuber borchii Vittad. Universal eubacterial primers specific for the 5' and 3' ends of the 16S rRNA gene (16S rDNA) were used for PCR amplification, direct sequencing, and phylogenetic analyses. The 16S rDNA was amplified directly from four pure cultures of T. borchii Vittad. mycelium. A nearly full-length sequence of the gene coding for the prokaryotic small-subunit rRNA was obtained from each T. borchii mycelium studied. The 16S rDNA sequences were almost identical (98 to 99% similarity), and phylogenetic analysis placed them in a single unique rRNA branch belonging to the Cytophaga-Flexibacter-Bacteroides (CFB) phylogroup which had not been described previously. In situ detection of the CFB bacterium in the hyphal tissue of the fungus T. borchii was carried out by using 16S rRNA-targeted oligonucleotide probes for the eubacterial domain and the Cytophaga-Flexibacter phylum, as well as a probe specifically designed for the detection of this mycelium-associated bacterium. Fluorescent in situ hybridization showed that all three of the probes used bound to the mycelium tissue. This study provides the first direct visual evidence of a not-yet-cultured CFB bacterium associated with a mycorrhizal fungus of the genus Tuber.     

Citromicrobium bathyomarinum, a novel aerobic bacterium isolated from deep-sea hydrothermal vent plume waters that contains photosynthetic pigment-protein complexes.

We have taxonomically and phylogenetically characterized a new aerobic bacterial strain (JF-1) that contains photosynthetic pigment-protein complexes and which was recently isolated from black smoker plume waters of the Juan de Fuca Ridge. Strain JF-1 is a gram-negative, yellow-pigmented, motile bacterium that is salt-, pH-, and thermotolerant. These properties are consistent with an oligotrophic adaptation to varied environmental conditions thought to exist around deep-sea hydrothermal vents. The analysis of 16S rDNA sequences revealed that strain JF-1 forms a separate phylogenetic branch between the genus Erythromonas and the Erythromicrobium-Porphyrobacter-Erythrobacter cluster within the alpha subclass of the Proteobacteria. The taxonomic name Citromicrobium bathyomarinum (gen. nov., sp. nov.) is proposed for strain JF-1.     

Phylogenetic analysis of rhizosphere-associated beta-subclass proteobacterial ammonia oxidizers in a municipal wastewater treatment plant based on rhizoremediation technology

In wastewater treatment plants based on the rhizosphere zone (rhizoremediation technology), ammonia-oxidizing bacteria (AOB) play an important role in the removal of fixed nitrogen. However, the diversity of these bacteria in rhizoremediation wastewater treatment plants is largely unknown. We employed direct PCR amplification and cloning of 16S rRNA genes to determine the phylogenetic affiliation of AOB occurring in root and soil samples of a wastewater treatment plant (Merzdorf plant, Brandenburg, Germany). 16S rDNA clone libraries were screened by hybridization using an oligonucleotide probe specific for AOB of the beta subclass of proteobacteria. Comparative sequence analysis of all hybridization-positive clones revealed that the majority of rDNA sequences was affiliated to members of the genus Nitrosospira and formed a novel subcluster (SM cluster), whereas only three sequences were most closely related to Nitrosomonas species. Affiliation of the novel Nitrosospira-like sequences with those of isolates from soil and rhizosphere suggests that phylogenetic clusters reflect physiological differences between members of this genus.     

Phylogenic and phenotypic characterization of some Eubacterium-like isolates from human feces: description of Solobacterium moorei Gen. Nov., Sp. Nov

Three isolated strains from human feces were characterized by biochemical tests and 16S rDNA analysis. Phylogenetic analysis revealed that these isolated strains were members of the Clostridium subphylum of gram-positive bacteria. The phenotypic characters resembled those of the genus Eubacterium, but these strains were shown to be phylogenetically distant from the type species of the genus, Eubacterium limosum. The strains showed a specific phylogenetic association with Holdemania filiformis and Erysipelothrix rhusiopathiae. Based on a 16S rDNA sequence divergence of greater than 12% with H. filiformis and E. rhusiopathiae, a new genus, Solobacterium, is proposed for three strains, with one species, Solobacterium moorei. The type strain of Solobacterium moorei is JCM 10645T.     

蚜虫与体内布赫纳氏菌及其次生共生菌的相互关系

对蚜虫与其内共生细菌共生关系的研究进展进行综述。布赫纳氏菌Buchnera普遍存在于蚜虫体内特殊的菌胞中,与蚜虫形成专性共生关系,为宿主蚜虫提供多种必需氨基酸和B族维生素。蚜虫体内的菌胞数量是一个动态变量,受蚜虫体内、外环境因子的影响。在某些蚜虫体内菌胞中还发现有若干种类次生共生细菌,其功能尚不完全清楚,可能与蚜虫的生态学特征有关。对蚜虫与其体内共生菌相互关系的研究提出一些新的问题。     

免培养法对一热泉细菌多样性的初步研究

应用免培养法（Cultureindependent）对云南腾冲热海大滚锅高温热泉中细菌的多样性进行初步的分析。经过克隆筛选,测定了5个克隆的16S rDNA插入片段的近全序列,系统发育分析的结果表明,它们分属于Bacillus、Hydrogenobacter和Pseudomonas,有一个克隆尚难确定其分类地位,它属于Thermodesulfobacteriaceae科,介于Geothermbacterium属和Thermodesulfobacteria属之间。经PCR扩增出上述5个克隆16S rDNA插入序列中及环境样品总DNA中的16S rDNA V8高变区约600bp片段,进行变性梯度电泳（DGGE）。所得电泳图谱和5个序列的系统发育树不仅表明该高温热泉存在着丰富的细菌多样性,还显示了它们是该高温热泉中细菌的优势物种。