尼泊尔马桑根瘤内生菌纯培养物的质粒检测

采用胶内裂解法快速检测了21株马桑根瘤内生菌纯培养物和4株弗兰克氏菌参考菌株的质粒,其中有5株马桑分离菌株和1株参考菌株含有质粒。除马桑菌株和参考菌株各有1株携带2个质粒外,其它菌株均只含有1个质粒。这些质粒的分子量约为13～20kb。根据所含质粒的大小和数目,将21株马桑分离菌株划分成4个质粒类群。实验还对菌丝体生长,细胞酶解和裂解等条件对质粒检测效果的影响进行了探讨。     

Molecular cloning, sequencing, and expression of the glutamine synthetase II (glnII) gene from the actinomycete root nodule symbiont Frankia sp. strain CpI1.

In common with other plant symbionts, Frankia spp., the actinomycete N2-fixing symbionts of certain nonleguminous woody plants, synthesize two glutamine synthetases, GSI and GSII. DNA encoding the Bradyrhizobium japonicum gene for GSII (glnII) hybridized to DNA from three Frankia strains. B. japonicum glnII was used as a probe to clone the glnII gene from a size-selected KpnI library of Frankia strain CpI1 DNA. The region corresponding to the Frankia sp. strain CpI1 glnII gene was sequenced, and the amino acid sequence was compared with that of the GS gene from the pea and glnII from B. japonicum. The Frankia glnII gene product has a high degree of similarity with both GSII from B. japonicum and GS from pea, although the sequence was about equally similar to both the bacterial and eucaryotic proteins. The Frankia glnII gene was also capable of complementing an Escherichia coli delta glnA mutant when transcribed from the vector lac promoter, but not when transcribed from the Frankia promoter. GSII produced in E. coli was heat labile, like the enzyme produced in Frankia sp. strain CpI1 but unlike the wild-type E. coli enzyme.     

Genetic heterogeneity among Frankia isolates from root nodules of individual actinorhizal plants

Abstract Genetic variations among selected Frankia isolates from nitrogen-fixing root nodules harvested from an individual actinorhizal plant ( Elaeagnus angustifolia L. or Shepherdia argentea Nutt.) were estimated by restriction fragment analysis of their total genomic DNA. The presence of plasmids and their restriction enzyme patterns were used as additional criteria. Certain isolates from separate nodules on the same plant were found indistinguishable, being probably clones of the same strain. An endophytic passage of a strain isolated from S. argentea on another host plant, Hippophaë rhamnoides L., did not modify the structural characteristics of the genome in the reisolates obtained. However, in some cases, especially when restriction endonucleases cleaving Frankia DNA into relatively small fragments were used, multiple infection of the actinorhizal plants with different Frankia strains and the presence of more than one strain in a nodule were demonstrated. Some aspects of variability in natural populations of Frankia are discussed.     

Nickel is essential for active hydrogenase in free-living Frankia isolated from Casuarina

Five free-living Frankia strains isolated from Casuarina were investigated for occurrence of hydrogenase activity. Nitrogenase activity (acetylene reduction) and hydrogen evolution were also evaluated. Acetylene reduction was recorded in all Frankia strains. None of the Frankia strains had any hydrogenase activity when grown on nickel-depleted medium and they released hydrogen in atmospheric air. After addition of nickel to the medium, the Frankia strains were shown to possess an active hydrogenase, which resulted in hydrogen uptake but no hydrogen evolution. The hydrogenase activity in Frankia strain KB5 increased from zero to 3.86 μ mol H₂ (mg protein)⁻¹ h⁻¹ after addition of up to 1.0 μ M Ni. It is likely that the hydrogenase activity could be enhanced even more as a response on further addition of Ni. It is indicated in this study that absence of hydrogenase activity in free-living Frankia isolated from Casuarina spp. is due to nickel deficiency. Frankia living in symbiosis with Casuarina spp. show hydrogenase activity. Therefore, the results also indicate that the hydrogenase to some extent is regulated by the host plant and/or that the host plant supplies the symbiotic microorganism with nickel. Moreover, the result shows that this Frankia is somewhat different from Frankia isolated from Alnus incana and Comptonia peregrina ., i.e., Frankia isolated from A. incana and C. peregrina showed a small hydrogen uptake activity even without addition of nickel.     

Broad diversity of conjugative plasmids in integron-carrying bacteria from wastewater environments

In this study we assessed the occurrence, diversity and conjugative potential of plasmids in integron-carrying Aeromonas and Enterobacteriaceae from wastewaters. Sixty-six strains were included as donors in mating assays using rifampicin-resistant Escherichia coli and Pseudomonas putida recipient strains. The diversity of plasmids from donors and transconjugants (resistant to tetracycline or streptomycin) was evaluated by restriction analysis and replicon typing targeting 19 incompatibility groups. Restriction patterns revealed a diverse plasmid pool present in these strains. Plasmids were assigned to FrepB (Aeromonas salmonicida, Aeromonas veronii, Aeromonas sp., E.?coli, Enterobacter sp.), FIC (A.?salmonicida, Aeromonas sp.), FIA (Shigella sp.), I1 (A.?veronii, Aeromonas sp., E.?coli), HI1 (E.?coli) and U (Aeromonas media) replicons. Nevertheless, 50% of the plasmids could not be assigned to any replicon type. Among integron-positive transconjugants, FrepB, I1 and HI1 replicons were detected. Results showed that wastewaters enclose a rich plasmid pool associated with integron-carrying bacteria, capable of conjugating to different bacterial hosts. Moreover, replicons detected in this study in Aeromonas strains expand our current knowledge of plasmid diversity in this genus.     

Relationships among pure cultured strains of Frankia based on host specificity

Fifty strains of Frankia were tested for their ability to nodulate six species of actinorhizal plants. Pure cultured strains were used to inoculate seedlings of Alnus glutinosa (L.) Gaertn., Alnus rubra Bong., Casuarina equisetifolia L., Elaeagnus angustifolia L., Hippophaë rhamnoides L. and Myrica cerifera L. in nutrient solution culture. From the results of this study, host inoculation groups among the actinorhizal plants were defined. Although overlap between host inoculation groups appears to be common, the results from this study did not support the view that Frankia strains are promiscuous. All Frankia strains tested in this study could easily be classified into four major host-specificity groups.     

Protective effect of Brucella outer membrane complex-bearing liposomes against experimental murine brucellosis

Abstract Nodulation ability was tested for Frankia strains HFPCcI3 and ELI, and Frankia sources A.t. and G.a. from Allocasuarina torulosa and Gymnostoma australianum , respectively, on A. torulosa Miq., Casuarina cunninghamiana Miq., G. australianum L. Johnson and Elaeagnus triflora Roxb. It was shown that A. torulosa and C. cunninghamiana formed nodules only with the Frankia sources obtained from their own host plant, while E. triflora formed nodules with three of the four Frankia sources tested. All nodules formed were effectively fixing nitrogen. Specific nitrogenase activity was highest in E. triflora inoculated with the Frankia strain isolated from nodules of the same species. Identification of Frankia sources in the nodules was performed by use of PCR amplification of DNA with a random primer. PCR amplification of DNA isolated from nodules of G. australianum and E. triflora inoculated with Frankia strain EL1 revealed, when compared with DNA amplified from free living Frankia strain EL1, that there was only one Frankia strain causing the observed nodules.     

Low genetic diversity among Frankia spp. strains nodulating sympatric populations of actinorhizal species of Rosaceae, Ceanothus (Rhamnaceae) and Datisca glomerata (Datiscaceae) west of the Sierra Nevada (California)

Frankia spp. strains typically induce N2-fixing root nodules on actinorhizal plants. The majority of host plant taxa associated with the uncultured Group 1 Frankia strains, i.e., Ceanothus of the Rhamnaceae, Datisca glomerata (Datiscaceae), and all actinorhizal members of the Rosaceae except Dryas, are found in California. A study was conducted to determine the distribution of Frankia strains among root nodules collected from both sympatric and solitary stands of hosts. Three DNA regions were examined, the 5' end of the 16S rRNA gene, the internal transcribed spacer region between the 16S and 23S rRNA genes, and a portion of the glutamine synthetase gene (glnA). The results suggest that a narrow range of Group 1 Frankia spp. strains dominate in root nodules collected over a large area of California west of the Sierra Nevada crest with no apparent host-specificity. Comparisons with Group 2 Frankia strain diversity from Alnus and Myrica within the study range suggest that the observed low diversity is peculiar to Group 1 Frankia strains only. Factors that may account for the observed lack of genetic variability and host specificity include strain dominance over a large geographical area, current environmental selection, and (or) a past evolutionary bottleneck.     

Native agarose-polyacrylamide gel electrophoresis allowing the detection of aminopeptidase, dehydrogenase, and esterase activities at the nanogram level: enzymatic patterns in some Frankia strains

Nanogram amounts of soluble aminopeptidases, dehydrogenases, and esterases were detected by nondenaturing ultralow gelling point agarose-polyacrylamide gel electrophoresis (ULGA-PAGE). Cytosolic fractions from Frankia sp. were electrophoresed at 4 degrees C in the presence of Co2+, Zn2+, or Mg2+ ions. Then, aminopeptidases and esterases were revealed by simultaneous capture staining by using fast garnet GBC diazonium salt as the chromogenic coupling compound. Dehydrogenases were revealed by using nitro blue tetrazolium salt as electron acceptor. A variety of aminopeptidases, dehydrogenases, and esterases could be identified by their migration in ULGA-PAGE and by their sensitivities to NaCl, CoSO4, ZnSO4, and MgCl2 when assayed "ingel." The presence of agarose was essential for the detection of the complex enzyme patterns. The patterns were remarkably similar for the five Frankia strains isolated from Allocasuarina and Casuarina host plants and differed from those of Frankia strains isolated from Comptonia and Hippopha? host plants. A nomenclature is proposed for aminopeptidases and other Frankia enzymes. The richness of the Frankia amino-peptidases and esterases zymograms makes them adequate marker enzymes for taxonomical, genetic, or biochemical studies. Dehydrogenases might also be useful, although a more restricted number of bands were found with L-lactic and L-malic acid as substrates.     

Occurrence of conjugated R-plasmids in bacteria of the Aeromonas genus isolated from purified urban sewage water]

The aim of the study was to determine a participation of Aeromonas sp., having conjugation R plasmids, in a population of the bacteria present in purified urban sewage . In 1 ml of sewage 1.8 x 10(3) - 50 x 10(3) of Aeromonas sp., were found. The isolated strains belonged to the following genera: A. hydrophila, A. caviae, A. sorbia. All tested strains were sensitive to gentamicin, tetracycline, kanamycin and nalidixic acid. Among 186 strains of Aeromonas sp., two belonging to A. caviae genus transferred resistance to streptomycin to A. hydrophila and E. coli recipients on the other hand two strains of A. caviae transferred resistance to streptomycin exclusively to A. hydrophila recipient.     

Significant natural product biosynthetic potential of actinorhizal symbionts of the genus frankia, as revealed by comparative genomic and proteomic analyses

Bacteria of the genus Frankia are mycelium-forming actinomycetes that are found as nitrogen-fixing facultative symbionts of actinorhizal plants. Although soil-dwelling actinomycetes are well-known producers of bioactive compounds, the genus Frankia has largely gone uninvestigated for this potential. Bioinformatic analysis of the genome sequences of Frankia strains ACN14a, CcI3, and EAN1pec revealed an unexpected number of secondary metabolic biosynthesis gene clusters. Our analysis led to the identification of at least 65 biosynthetic gene clusters, the vast majority of which appear to be unique and for which products have not been observed or characterized. More than 25 secondary metabolite structures or structure fragments were predicted, and these are expected to include cyclic peptides, siderophores, pigments, signaling molecules, and specialized lipids. Outside the hopanoid gene locus, no cluster could be convincingly demonstrated to be responsible for the few secondary metabolites previously isolated from other Frankia strains. Few clusters were shared among the three species, demonstrating species-specific biosynthetic diversity. Proteomic analysis of Frankia sp. strains CcI3 and EAN1pec showed that significant and diverse secondary metabolic activity was expressed in laboratory cultures. In addition, several prominent signals in the mass range of peptide natural products were observed in Frankia sp. CcI3 by intact-cell matrix-assisted laser desorption-ionization mass spectrometry (MALDI-MS). This work supports the value of bioinformatic investigation in natural products biosynthesis using genomic information and presents a clear roadmap for natural products discovery in the Frankia genus.     

长白山三种赤杨根瘤内Frankia基因多样性的REP分析

利用REP PCR方法研究了长白山不同海拔处 3种赤杨根瘤内Frankia菌基因多样性。结果表明 ,赤杨根瘤内Frankia菌存在丰富的基因多样性。宿主和海拔因素共同影响长白山赤杨属Frankia菌的基因多样性 :东北赤杨Frankia菌的宿主专一性很强 ,西伯利亚赤杨和色赤杨的Frankia菌的有较近的亲缘关系。不同海拔的同种宿主共生的Frankia菌基因类型不同 ,相同海拔的西伯利亚赤杨和色赤杨的Frankia菌出现宿主混乱现象     

Diversity and specificity of Frankia strains in nodules of sympatric Myrica gale, Alnus incana, and Shepherdia canadensis determined by rrs gene polymorphism

The identity of Frankia strains from nodules of Myrica gale, Alnus incana subsp. rugosa, and Shepherdia canadensis was determined for a natural stand on a lake shore sand dune in Wisconsin, where the three actinorhizal plant species were growing in close proximity, and from two additional stands with M. gale as the sole actinorhizal component. Unisolated strains were compared by their 16S ribosomal DNA (rDNA) restriction patterns using a direct PCR amplification protocol on nodules. Phylogenetic relationships among nodular Frankia strains were analyzed by comparing complete 16S rDNA sequences of study and reference strains. Where the three actinorhizal species occurred together, each host species was nodulated by a different phylogenetic group of Frankia strains. M. gale strains from all three sites belonged to an Alnus-Casuarina group, closely related to Frankia alni representative strains, and were low in diversity for a host genus considered promiscuous with respect to Frankia microsymbiont genotype. Frankia strains from A. incana nodules were also within the Alnus-Casuarina cluster, distinct from Frankia strains of M. gale nodules at the mixed actinorhizal site but not from Frankia strains from two M. gale nodules at a second site in Wisconsin. Frankia strains from nodules of S. canadensis belonged to a divergent subset of a cluster of Elaeagnaceae-infective strains and exhibited a high degree of diversity. The three closely related local Frankia populations in Myrica nodules could be distinguished from one another using our approach. In addition to geographic separation and host selectivity for Frankia microsymbionts, edaphic factors such as soil moisture and organic matter content, which varied among locales, may account for differences in Frankia populations found in Myrica nodules.     

Influence of iron depletion on growth and production of catechol siderophores by different Frankia strains

Nine strains of Frankia isolated from six Casuarinaceae (including four Casuarina sp., one Allocasuarina and one Gymnostoma) and one Elaeagnaceae (Hippophae¨ rhamnoides) were screened for growth and production of siderophores in an iron-deficient liquid medium. Siderophore production was detected only in four strains (Cj, G2, CH and G82) using the CAS and Arnow assays. Salicylates formed more than 90% and dihydroxybenzoates formed less than 10% of all catechol-type siderophores produced. Growth of the former strains was less affected by iron deficiency than that of strains Rif, Thr, URU, BR and RT which do not produce siderophores. Optimal siderophore production by strain Cj was noted when iron concentration reached 0.5μm and was completely inhibited at an iron concentration of 10μm. The kinetics of siderophore production by strain Cj showed that siderophore synthesis was detectable during the growth stationary phase. Growth of Cj (a siderophore-producing strain) and of RT (a non-siderophore-producing strain) differed when 2,2-dipyridyl or ethylene di(o-hydroxyphenyl) acetic acid (EDDHA) was added to the iron-deficient growth medium. Frankia strain RT was the most sensitive to the detrimental effect of both iron chelators.     

福建省放线菌结瘤植物共生菌Frankia遗传多样性研究

[目的]了解福建省放线菌结瘤植物共生固氮菌Frankia的遗传多样性.[方法]利用16S-23SrDNA间隔区(rrn)和nifD-K基因间隔区的PCR扩增和RFLP技术,分析了福建省木麻黄、杨梅、桤木、胡颓子等共生Frankia纯培养菌株的遗传差异.[结果]17个菌株获得rrn扩增片段,2个杨梅菌株和1个胡颓子菌株扩增未成功,酶切图谱经聚类分析表明6个地点的细枝木麻黄、短枝木麻黄、粗枝木麻黄12个共生Frankia菌株同源性高,属于一个类群,2个地点的4个杨梅菌株和1个四川桤木菌株亲缘关系近,为另一类群.25个Frankia菌株的,nifD-K基因间隔区PCR-RFLP分析结果显示,7个地点的3种木麻黄14个菌株聚类为一个类群,4个地点的7个杨梅菌株、2个地点的2个四川桤木菌株以及1个台湾桤木菌株聚类为另一个类群,胡颓子菌株则为独立的类群.[结论]研究结果表明福建省共生Frankia遗传多样性丰富.