16S Ribosomal DNA Characterization of Nitrogen-Fixing Bacteria Isolated from Banana (Musa spp.) and Pineapple (Ananas comosus (L.) Merril)

Nitrogen-fixing bacteria isolated from banana (Musa spp.) and pineapple (Ananas comosus (L.) Merril) were characterized by amplified 16S ribosomal DNA restriction analysis and 16S rRNA sequence analysis. Herbaspirillum seropedicae, Herbaspirillum rubrisubalbicans, Burkholderia brasilensis, and Burkholderia tropicalis were identified. Eight other types were placed in close proximity to these genera and other alpha and beta Proteobacteria.     

Diversity analysis of diazotrophic bacteria associated with the roots of tea (Camellia sinensis (L.) O. Kuntze)

The diversity elucidation by amplified ribosomal DNA restriction analysis and 16S rDNA sequencing of 96 associative diazotrophs, isolated from the feeder roots of tea on enriched nitrogen-free semisolid media, revealed the predominance of Gram-positive over Gram-negative bacteria within the Kangra valley in Himachal Pradesh, India. The Gram-positive bacteria observed belong to two taxonomic groupings; Firmicutes, including the genera Bacillus and Paenibacillus; and Actinobacteria, represented by the genus Microbacterium. The Gram-negative bacteria included alpha-Proteobacteria genera Brevundimonas, Rhizobium, and Mesorhizobium; gamma-Proteobacteria genera Pseudomonas and Stenotrophomonas; and beta-Proteobacteria genera Azospira, Burkholderia, Delftia, Herbaspirillum and Ralstonia. The low level of similarity of two isolates, with the type strains Paenibacillus xinjiangensis and Mesorhizobium albiziae, suggests the possibility of raising species novum. The bacterial strains of different phylogenetic groups exhibited distinct carbon-source utilization patterns and fatty acid methyl ester profiles. The strains differed in their nitrogenase activities with relatively high activity seen in the Gramnegative strains exhibiting the highest similarity to Azospira oryzae, Delftia lacustris and Herbaspirillum huttiense.     

先锋牧草-香根草联合固氮菌多样性

[目的]香根草(Vetiver zizanioides)是一种多年生禾本科草本植物,具有极强的生态适应性和抗逆能力,可作饲料和水土保持用.通过研究香根草联合固氮菌多样性,为进一步研究和应用打下基础.[方法]采用无氮培养基,首次从香根草中分离到47株联合固氮菌,分别应用SDS-PAGE全细胞蛋白质电泳、DNA指纹图谱、唯一碳源和16S rDNA全序列测定等方法,进行聚类和多样性分析.[结果]SDS-PAGE、IS-PCR和Bio-BIQA碳源利用的聚类结果基本一致,将供试菌株分为6个类群和4个单菌株;16S rDNA序列测定表明,从香根草中分离的菌株包括了佛莱辛草螺菌(Herbaspirillum frisingense)、中型假食酸菌(Pseudacidovorax intermedius)、恶臭假单胞菌(Pseudomonas putida)、荧光假单胞菌(Pseudomonas fluorescens)、越南伯克氏菌(Burkholderia vietnamiensis)、阴沟肠杆菌(Enterobacter cloacae)、路德维希肠杆菌(Enterobacter ludwigii)和松江壳聚糖降解菌(Mitsuaria chitosanitabida)等不同菌种.[结论]香根草联合固氮菌具有较大的资源多样性,对固氮菌资源的扩展和将来牧草上的应用具有重要意义.     

先锋牧草-香根草联合固氮菌多样性研究

摘要：【目的】香根草（Vetiver zizanioides）是一种多年生禾本科草本植物,具有极强的生态适应性和抗逆能力,可作饲料和水土保持用。通过研究香根草联合固氮菌多样性,为进一步研究和应用打下基础。【方法】采用无氮培养基,首次从香根草中分离到47株联合固氮菌,分别应用SDS-PAGE全细胞蛋白质电泳、DNA指纹图谱、唯一碳源和16S rDNA全序列测定等方法,进行聚类和多样性分析。【结果】SDS-PAGE、IS-PCR和Bio-BIQA碳源利用的聚类结果基本一致,将供试菌株分为6个类群和4个单菌株;     

New betaproteobacterial Rhizobium strains able to efficiently nodulate Parapiptadenia rigida (Benth.) Brenan

Among the leguminous trees native to Uruguay, Parapiptadenia rigida (Angico), a Mimosoideae legume, is one of the most promising species for agroforestry. Like many other legumes, it is able to establish symbiotic associations with rhizobia and belongs to the group known as nitrogen-fixing trees, which are major components of agroforestry systems. Information about rhizobial symbionts for this genus is scarce, and thus, the aim of this work was to identify and characterize rhizobia associated with P. rigida. A collection of Angico-nodulating isolates was obtained, and 47 isolates were selected for genetic studies. According to enterobacterial repetitive intergenic consensus PCR patterns and restriction fragment length polymorphism analysis of their nifH and 16S rRNA genes, the isolates could be grouped into seven genotypes, including the genera Burkholderia, Cupriavidus, and Rhizobium, among which the Burkholderia genotypes were the predominant group. Phylogenetic studies of nifH, nodA, and nodC sequences from the Burkholderia and the Cupriavidus isolates indicated a close relationship of these genes with those from betaproteobacterial rhizobia (beta-rhizobia) rather than from alphaproteobacterial rhizobia (alpha-rhizobia). In addition, nodulation assays with representative isolates showed that while the Cupriavidus isolates were able to effectively nodulate Mimosa pudica, the Burkholderia isolates produced white and ineffective nodules on this host.     

Isolation, molecular characterization and growth-promoting activities of endophytic sugarcane diazotroph Klebsiella sp. GR9

A group of endophytic diazotrophs were isolated from surface-sterilized roots and stems of different sugarcane varieties in the Tamilnadu region of India. From these, four isolates were selected, based on the highest acetylene reduction activity. Gene-specific PCR amplification confirmed the presence of nif-D genes in those isolates. The 16S rRNA sequence of isolates GR4 and GR7 had a 99.5% sequence similarity to the Pseudomonas sp. pDL01 (AF125317) and 16S rDNA sequence of isolate GR3 had a 100% similarity to that of Burkholderia vietnamiensis (AY973820). The 16S rDNA sequence of isolate GR9 was 99.79% similar to that of the Klebsiella pneumoniae type strain (KPY17657). Colonization by the isolates was confirmed using micropropagated sugarcane and sterile rice seedlings. Isolate GR9, identified as Klebsiella pneumoniae, was consistently more active in reducing acetylene as compared with the other isolates. The effects of GR9 and the sugarcane diazotroph Gluconacetobacter diazotrophicus were compared in inoculated micropropagated sugarcane plantlets. The effects of K. pneumoniae GR9, and four other diazotrophs, G. diazotrophicus, Herbaspirillum seropedicae, Azospirillum lipoferum 4B, and Burkholderia vietnamiensis in inoculated rice seedlings were compared. GR9 alone or in combination with the other diazotrophs performed best under pot conditions. The combined effects of nitrogen fixation and endophytic colonization of this diazotroph may be useful for the development of bio-inoculants.     

Phylogenetic identification of three strains of rhizosphere bacteria based on the results of 16s rRNA gene analysis and genetic typing

The rhizosphere nitrogen-fixing bacteria Herbaspirillum frisingense B416, Burkholderia sp. 418, and Herbaspirillum huttiense B601 (degrader of chlorinated s-triazines) were identified by phylogenetic analysis of the 16S rRNA gene sequences, characterization of the 16S–23S intergenic spacer region, Rep-PCR genotyping, and assessment of differentiating phenotypic characteristics. The results obtained indicate that, for correct taxonomic affiliation by comparative analysis of 16S rRNA gene sequences, the ratio between intra-and interspecies variability of these sequences within the group of bacteria closely related to the identified strain should be taken into consideration. If the interspecies differences between 16S rRNA genes are insufficient for differentiation of closely related species, ribotyping and Rep-PCR analysis of genomic DNA can be used for determination of the species affiliation.     

Molecular Characterization of 16S Ribosomal DNA and Phylogenetic Analysis of Two X-disease Group Phytoplasmas Affecting China-tree (Melia azedarach L.) and Garlic (Allium sativum L.) in Argentina

Two phytoplasmas closely related to the X‐disease group were associated with China‐tree (Melia azedarach L.) and garlic (Allium sativum L.) decline diseases in Argentina. The present work was aimed at studying their phylogenetic relationship based on molecular characterization of the 16S ribosomal DNA sequences. Phytoplasma DNAs were obtained from naturally infected China‐tree and garlic plants from different geographical isolates. The results from analysis of restriction fragment length polymorphisms and nucleotide sequences of the 16S rDNA showed the affiliation of China‐tree and garlic decline phytoplasmas to the 16SrIII (X‐disease group), subgroups B and J, respectively. Both organisms had high sequence similarities in the 16SrDNA nucleotide sequence with the Chayote witches’ broom phytoplasma from Brazil. The phylogenetic tree, constructed by parsimony analysis, grouped the Garlic decline, China‐tree decline, Chayote witches’ broom and Clover yellow edge phytoplasmas into a cluster separated from the other phytoplasmas of the X‐disease group.     

16S rRNA gene-based phylogenetic microarray for simultaneous identification of members of the genus Burkholderia

For cultivation-independent and highly parallel analysis of members of the genus Burkholderia , an oligonucleotide microarray (phylochip) consisting of 131 hierarchically nested 16S rRNA gene-targeted oligonucleotide probes was developed. A novel primer pair was designed for selective amplification of a 1.3 kb 16S rRNA gene fragment of Burkholderia species prior to microarray analysis. The diagnostic performance of the microarray for identification and differentiation of Burkholderia species was tested with 44 reference strains of the genera Burkholderia , Pandoraea , Ralstonia and Limnobacter . Hybridization patterns based on presence/absence of probe signals were interpreted semi-automatically using the novel likelihood-based strategy of the web-tool PhyloDetect. Eighty-eight per cent of the reference strains were correctly identified at the species level. The evaluated microarray was applied to investigate shifts in the Burkholderia community structure in acidic forest soil upon addition of cadmium, a condition that selected for Burkholderia species. The microarray results were in agreement with those obtained from phylogenetic analysis of Burkholderia 16S rRNA gene sequences recovered from the same cadmium-contaminated soil, demonstrating the value of the Burkholderia phylochip for determinative and environmental studies.     

Diversity of bacterial endophytes in roots of Mexican husk tomato plants (Physalis ixocarpa) and their detection in the rhizosphere

Endophytic bacterial diversity was estimated in Mexican husk tomato plant roots by amplified rDNA restriction analysis and sequence homology comparison of the 16S rDNA genes. Sixteen operational taxonomic units from the 16S rDNA root library were identified based on sequence analysis, including the classes Gammaproteobacteria, Betaproteobacteria, Actinobacteria, and Bacilli. The predominant genera were Stenotrophomonas (21.9%), Microbacterium (17.1%), Burkholderia (14.3%), Bacillus (14.3%), and Pseudomonas (10.5%). In a 16S rDNA gene library of the same plant species' rhizosphere, only common soil bacteria, including Stenotrophomonas, Burkholderia, Bacillus, and Pseudomonas, were detected. We suggest that the endophytic bacterial diversity within the roots of Mexican husk tomato plants is a subset of the rhizosphere bacterial population, dominated by a few genera.     

Gut symbiotic bacteria of the genus Burkholderia in the broad-headed bugs Riptortus clavatus and Leptocorisa chinensis (Heteroptera: Alydidae)

The Japanese common broad-headed bugs Riptortus clavatus and Leptocorisa chinensis possess a number of crypts in the posterior region of the midgut, whose lumen contains a copious amount of bacterial cells. We characterized the gut symbiotic bacteria by using molecular phylogenetic analysis, light and electron microscopy, in situ hybridization, and PCR-based detection techniques. Restriction fragment length polymorphism analysis of 16S rRNA gene clones suggested that a single bacterium dominated the microbiota in the crypts of the both bug species. The predominant 16S rRNA gene sequences obtained from different individuals and species of the bugs were not identical but were very similar to each other. Homology searches in the DNA databases revealed that the sequences showed the highest levels of similarity (96% to 99%) to the sequences of Burkholderia spp. belonging to the beta subdivision of the class Proteobacteria. In situ hybridization with specific oligonucleotide probes confirmed the localization of the Burkholderia symbiont in the lumen of the midgut crypts. Electron microscopy showed that the lumen of the crypts was filled with rod-shaped bacteria of a single morphotype. Molecular phylogenetic analysis demonstrated that the Burkholderia symbionts of the bugs formed a well-defined monophyletic group, although the group also contained several environmental Burkholderia strains. The phylogenetic relationship of the Burkholderia symbionts did not reflect the relationship of the host bug species at all. The sequences from R. clavatus and the sequences from L. chinensis did not form clades but were intermingled in the phylogeny, suggesting that horizontal transmission of the symbiont might have occasionally occurred between populations and species of the bugs.     

Nitrogen-fixing nodules from rose wood legume trees (Dalbergia spp.) endemic to Madagascar host seven different genera belonging to alpha- and beta-Proteobacteria

Although legume biodiversity is concentrated in tropical regions, the majority of studies on legume nodulating bacteria (LNB) are focused on cultivated leguminous plants from temperate regions. However, recent works on tropical regions tend to indicate that the actual diversity of LNB is largely underestimated. In this study, we report the isolation and characterization of 68 nitrogen-fixing root nodule bacteria collected from eight endemic tree species of Dalbergia in Madagascar. The isolates were characterized by (i) restriction fragment length polymorphism (RFLP) analysis of 16S-IGS rDNA, (ii) 16S rDNA gene sequencing and (iii) nodulation tests. Results revealed a wide diversity of bacteria present in the nodules of Dalbergia. Among the 68 isolated bacteria, 65 belonged to Bradyrhizobium, Mesorhizobium, Rhizobium, Azorhizobium and Phyllobacterium from the alpha-class of Proteobacteria, and three isolates belonged to Burkholderia and Ralstonia from the beta-class of Proteobacteria. Our results also show for the first time that a strain belonging to the Burkholderia cepacia complex is able to induce efficient nodules on a legume plant.     

Multichromosomal genome structure and confirmation of diazotrophy in novel plant-associated Burkholderia species

Pulsed-field gel electrophoresis and 16S rRNA hybridization experiments showed that multichromosome genome structures and very large genome sizes (6.46 to 8.73 Mb) are prevalent in novel plant-associated Burkholderia species. (15)N(2) isotope dilution assays revealed unambiguous diazotrophy in these novel species. nifH gene sequence analysis, often used to determine phylogenetic relatedness among diazotrophs, showed tight clusters of Burkholderia species, which were clearly distinct from those of other diazotrophs.     

石油污染盐碱土壤翅碱蓬根围的细菌多样性及耐盐石油烃降解菌筛选

为了更好地了解石油污染盐碱土壤翅碱蓬根围的细菌多样性,采用16S rRNA基因克隆文库方法对其进行分析,在此基础上采用富集培养方法从该生境中分离筛选耐盐石油烃降解菌.16S rRNA基因克隆文库分析结果表明,海杆菌属(Marinobacter)、食烷菌属(Alcanivorax)和假单胞菌属(Pseudomonas)是该生境中的优势菌.他们可能在石油污染盐碱土壤翅碱蓬植物修复过程中起重要作用.进一步采用富集培养方法,从该生境中分离得到8株耐盐石油烃降解菌,可以耐受6％-10％浓度的NaCl,石油烃降解率在32.3％-57.0％之间.经16S rRNA基因序列分析,8株菌隶属于戈登氏菌属(Gordonia)、无色杆菌属(Achromobacter)、迪茨菌属(Dietzia)、芽胞杆菌属(Bacillus)和假单胞菌属(Pseudomonas).他们可能参与石油污染盐碱土壤翅碱蓬植物修复过程中的石油烃降解.     

Prevalence of Burkholderia sp. nodule symbionts on four mimosoid legumes from Barro Colorado Island, Panama

Sequences of 16S rRNA and partial 23S rRNA genes and PCR assays with genotype-specific primers indicated that bacteria in the genus Burkholderia were the predominant root nodule symbionts for four mimosoid legumes (Mimosa pigra, M. casta, M. pudica, and Abarema macradenia) on Barro Colorado Island, Panama. Among 51 isolates from these and a fifth mimosoid host (Pithecellobium hymenaeafolium), 44 were Burkholderia strains while the rest were placed in Rhizobium, Mesorhizobium, or Bradyrhizobium. The Burkholderia strains displayed four distinct rRNA sequence types, ranging from 89% to 97% similarity for 23S rRNA and 96.5-98.4% for 16S rRNA. The most common genotype comprised 53% of all isolates sampled and was associated with three legume host species. All Burkholderia genotypes formed nodules on Macroptilium atropurpureum or Mimosa pigra, and sequencing of rRNA genes in strains re-isolated from nodules verified identity with inoculant strains. Sequence analysis of the nitrogenase alpha-subunit gene (nifD) in two of the Burkholderia genotypes indicated that they were most similar to a partial sequence from the nodule-forming strain Burkholderia tuberum STM 678 from South Africa. In addition, a PCR screen with primers specific to Burkholderia nodB genes yielded the expected amplification product in most strains. Comparison of 16S rRNA and partial 23S rRNA phylogenies indicated that tree topologies were significantly incongruent. This implies that relationships across the rRNA region may have been altered by lateral gene transfer events in this Burkholderia population.     

Detection, Identification and Molecular Characterization of a Phytoplasma Associated with Arabian Jasmine (Jasminum sambac L.) Witches' Broom in Oman

Arabian jasmine (Jasminum sambac L.) plants showing witches’ broom (WB) symptoms were found in two regions in the Sultanate of Oman. Polymerase chain reaction (PCR) amplification of the 16S rRNA gene and the 16S–23S spacer region utilizing phytoplasma‐specific universal and designed primer pairs, and transmission electron microscopy of phytoplasma‐like structures in phloem elements confirmed phytoplasma infection in the symptomatic plants. PCR products primed with the P1/P7 primer pair were 1804 bp for jasmine witches’ broom (JasWB) and 1805 bp for alfalfa (Medicago sativa L.) witches’ broom (AlfWB). Actual and putative restriction fragment length polymorphic analysis indicated that jasmine and AlfWB phytoplasmas were molecularly indistinguishable from each other and closely related to papaya yellow crinkle (PYC), as well as being distinct from lime WB (LWB) and Omani alfalfa WB (OmAlfWB) phytoplasmas. A sequence homology search of JasWB and AlfWB showed 99.8% similarity with PYC from New Zealand and 99.6% similarity with each other (JasWB/AlfWB). The jasmine and AlfWB phytoplasmas were also shown to be related to the peanut WB group (16SrII) of 16S rRNA groups based on a phylogenetic tree generated from phytoplasma strains primed with the P1/P7 primer pair and representing the 15 phytoplasma groups.     

Endophytic colonization and in planta nitrogen fixation by a Herbaspirillum sp. isolated from wild rice species.

Nitrogen-fixing bacteria were isolated from the stems of wild and cultivated rice on a modified Rennie medium. Based on 16S ribosomal DNA (rDNA) sequences, the diazotrophic isolates were phylogenetically close to four genera: Herbaspirillum, Ideonella, Enterobacter, and Azospirillum. Phenotypic properties and signature sequences of 16S rDNA indicated that three isolates (B65, B501, and B512) belong to the Herbaspirillum genus. To examine whether Herbaspirillum sp. strain B501 isolated from wild rice, Oryza officinalis, endophytically colonizes rice plants, the gfp gene encoding green fluorescent protein (GFP) was introduced into the bacteria. Observations by fluorescence stereomicroscopy showed that the GFP-tagged bacteria colonized shoots and seeds of aseptically grown seedlings of the original wild rice after inoculation of the seeds. Conversely, for cultivated rice Oryza sativa, no GFP fluorescence was observed for shoots and only weak signals were observed for seeds. Observations by fluorescence and electron microscopy revealed that Herbaspirillum sp. strain B501 colonized mainly intercellular spaces in the leaves of wild rice. Colony counts of surface-sterilized rice seedlings inoculated with the GFP-tagged bacteria indicated significantly more bacterial populations inside the original wild rice than in cultivated rice varieties. Moreover, after bacterial inoculation, in planta nitrogen fixation in young seedlings of wild rice, O. officinalis, was detected by the acetylene reduction and (15)N(2) gas incorporation assays. Therefore, we conclude that Herbaspirillum sp. strain B501 is a diazotrophic endophyte compatible with wild rice, particularly O. officinalis.     

Proposal of Burkholderia gen. nov. and transfer of seven species of the genus Pseudomonas homology group II to the new genus, with the type species Burkholderia cepacia (Palleroni and Holmes 1981) comb. nov.

Based on the 16S rRNA sequences, DNA-DNA homology values, cellular lipid and fatty acid composition, and phenotypic characteristics, a new genus Burkholderia is proposed for the RNA homology group II of genus Pseudomonas. Seven species in this group were transferred to the new genus. Thus seven new combinations, Burkholderia cepacia (Palleroni and Holmes 1981), Burkholderia mallei (Zopf 1885), Burkholderia pseudomallei (Whitmore 1913), Burkholderia caryophylli (Burkholder 1942), Burkholderia gladioli (Severini 1913), Burkholderia pickettii (Ralston et al 1973) and Burkholderia solanacearum (Smith 1896) were proposed.     

Chilling and cultivar type affect the diversity of bacterial endophytes colonizing sweet pepper (Capsicum anuum L.)

A climate chamber experiment was conducted to assay the effect of low temperatures (chilling) on the diversity of bacteria colonizing the endospheres of two thermophilic sweet pepper (Capsicum anuum L.) cultivars, Milder Spiral and Ziegenhorn Bello. Structural diversity was analyzed by 16S rRNA-based terminal restriction fragment length polymorphism (T-RFLP) analysis and by the generation of 16S rRNA gene libraries to determine dominant community members in T-RFLP profiles. Cultivable community members colonizing lines Milder Spiral and Ziegenhorn Bello were identified by 16S rRNA gene analysis. T-RFLP profiles and 16S rRNA gene libraries revealed a high heterogeneity of community composition due to chilling and suggested further the existence of cultivar-specific communities. The majority of isolates obtained from the cultivar Milder Spiral were assigned as high-G+C Gram-positive bacteria (Microbacterium sp., Micrococcus sp., Rhodococcus sp.) and Firmicutes (Staphylococcus sp.). Of the isolated endophytes obtained from cultivar Zeigenhorn Bello, 93% were affiliated with Staphylococcus aureus and Bacillus sp. (Firmicutes). The experimental set-up was suited to demonstrate that chilling and cultivar type can influence the diversity of bacterial endophytes colonizing sweet pepper. We propose additional chilling experiments to investigate the effect of chilling on functional, plant-beneficial abilities of bacterial endophytes associated with low-temperature-sensitive crops, such as sweet pepper.