大豆根瘤菌SCAUs8的接种效果、促生性及系统发育研究

【目的】大豆是我国重要的农作物,利用大豆-根瘤菌共生体系能有效减少化学氮肥的用量。将初筛的大豆根瘤菌SCAUs8在四川两个重要的大豆种植生态区进行田间接种验证试验,同时对该菌株进行分类地位研究。【方法】在四川丘陵区和攀西地区,采用大田试验调查接种大豆根瘤菌SCAUs8对大豆的增产效果。采用点接种法研究SCAUs8的抗逆性,用Salkowski比色法检测供试菌分泌吲哚乙酸(IAA)的能力。用多位点基因(16S r RNA,atp D,rec A,glnⅡ,nod C,nif H)序列分析对供试菌株SCAUs8进行分类地位的确定。【结果】大田试验表明,接种大豆根瘤菌SCAUs8后,大豆植株的产量、鲜重、干重等指标明显高于不接种对照(CK)处理,其中大豆植株产量比不接种CK增产21.4%-29.7%,其差异达显著水平。对供试菌株SCAUs8进行的耐酸碱性、耐盐性、生长温度范围以及分泌IAA能力测定的结果表明,供试菌株SCAUs8能在p H5.0-10.0正常生长,可耐受Na Cl浓度为0.5%,生长温度范围是10-40°C,能分泌IAA。综合16S r RNA、atp D、rec A、glnⅡ、nod C、nif H基因的序列分析,发现供试菌株SCAUs8与Bradyrhizobium diazoefficiens USDA110T相似性高达100%。【结论】供试菌株SCAUs8是与四川主栽大豆品种共生匹配性较好的广谱菌株。该菌株耐盐性较差,但具有较强的耐酸碱性、较宽的生长温度范围及分泌IAA的能力。系统发育研究将供试菌株SCAUs8确定为B.diazoeffciens。     

Molecular phylogeny of Bradyrhizobium bacteria isolated from root nodules of tribe Genisteae plants growing in southeast Poland

The phylogeny of 16 isolates from root nodules of Genista germanica, Genista tinctoria, Cytisus ratisbonensis, and Cytisus scoparius growing in southeast Poland was estimated by comparative sequence analysis of core (16S rDNA, atpD, glnII, recA) and symbiosis-related (nodC, nodZ, nifH) genes. All the sequences analyzed placed the studied rhizobia in the genus Bradyrhizobium. Phylogenetic analysis of individual and concatenated housekeeping genes showed that the Genisteae microsymbionts form a homogeneous group with Bradyrhizobium japonicum strains. The phylogeny of nodulation and nitrogen fixation genes indicated a close relationship of the examined rhizobia with B. japonicum, Bradyrhizobium canariense, Bradyrhizobium cytisi, Bradyrhizobium rifense and Bradyrhizobium lupini strains infecting other plants of the tribe Genisteae. For the first time, the taxonomic position of G. germanica and C. ratisbonensis rhizobia, inferred from multigenic analysis, is described. The results of the phylogenetic analysis based on the protein-coding gene sequences presented in this study also indicate potential pitfalls concerning the choice of marker and reference strains, which may lead to conflicting conclusions in species delineation.     

Diverse genotypes of Bradyrhizobium nodulate herbaceous Chamaecrista (Moench) (Fabaceae,Caesalpinioideae) species in Brazil

The genus Chamaecrista comprises more than 330 species which are mainly distributed across tropical America, especially in Brazil (256 spp.), the main center of radiation. In this study, nodulation of herbaceous Chamaecrista species that are commonly found growing in different vegetation types in the north eastern Brazilian state of Bahia was assessed together with the diversity of rhizobia isolated from their root nodules. Genetic characterization of the isolates was performed using molecular markers to examine the phylogeny of their “core” (16S rRNA, ITS, recA, glnII, dnaK and gyrB) and symbiosis-related (nifH, nodC) genomes. Nodule morphology, anatomy and ultrastructure were also examined, as was the capacity of the isolates to form nodules on Chamaecrista desvauxii and siratro (Macroptilium atropurpureum). Analysis of 16S rRNA gene sequences demonstrated that the isolates belonged to seven clusters within the genus Bradyrhizobium, and more detailed analyses using sequences of the ITS region and concatenated housekeeping genes grouped the Chamaecrista rhizobia by vegetation type and plant species. These analyses also suggested some potentially novel Bradyrhizobium species, which was corroborated by analyses of their nifH and nodC sequences, as these formed separated branches from all Bradyrhizobium type strains. All the 47 strains tested produced effective nodules on C. desvauxii but none on siratro. Chamaecrista nodules are herein described for the first time in detail: they are indeterminate and structurally similar to others described in the Caesalpinioideae, with infection threads in the invasion and nitrogen fixation zones, and with both infected and uninfected (interstitial) cells in the nitrogen fixation zone.     

Lotus endemic to the Canary Islands are nodulated by diverse and novel rhizobial species and symbiotypes

Genetic and symbiotic characterization of 34 isolates from several Lotus species endemic to the Canary Islands showed extraordinary diversity, with bacteria belonging to different species of the genera Mesorhizobium (17 isolates), Sinorhizobium (12 isolates) and Rhizobium/Agrobacterium (5 isolates). In a previous report, we showed that the Sinorhizobium isolates mostly belonged to S. meliloti. Here, we focused on the remaining isolates. The Lotus mesorhizobial strains were distributed in the rrs tree within six poorly resolved branches. Partial sequences from atpD and recA genes produced much better resolved phylogenies that were, with some exceptions, congruent with the ribosomal phylogeny. Thus, up to six different mesorhizobial species were detected, which matched with or were sister species of M. ciceri, M. alhagi, M. plurifarium or M. caraganae, and two represented new lineages that did not correspond to any of the currently recognized species. Neither M. loti nor Bradyrhizobium sp. (Lotus), recognized as the typical Lotus-symbionts, were identified among the Canarian Lotus isolates, although their nodulation genes were closely related to M. loti. However, several subbranches of mesorhizobia nodulating Lotus spp. could be differentiated in a nodC tree, with the isolates from the islands distributed in two of them (A1 and A3). Subbranch A1 included reference strains of M. loti and a group of isolates with a host range compatible with biovar loti, whereas A3 represented a more divergent exclusive subbranch of isolates with a host range almost restricted to endemic Lotus and it could represent a new biovar among the Lotus rhizobia.     

Phylogenies of symbiotic genes of Bradyrhizobium symbionts of legumes of economic and environmental importance in Brazil support the definition of the new symbiovars pachyrhizi and sojae

Bradyrhizobium comprises most tropical symbiotic nitrogen-fixing strains, but the correlation between symbiotic and core genes with host specificity is still unclear. In this study, the phylogenies of the nodY/K and nifH genes of 45 Bradyrhizobium strains isolated from legumes of economic and environmental importance in Brazil (Arachis hypogaea, Acacia auriculiformis, Glycine max, Lespedeza striata, Lupinus albus, Stylosanthes sp. and Vigna unguiculata) were compared to 16S rRNA gene phylogeny and genetic diversity by rep-PCR. In the 16S rRNA tree, strains were distributed into two superclades—B. japonicum and B. elkanii—with several strains being very similar within each clade. The rep-PCR analysis also revealed high intra-species diversity. Clustering of strains in the nodY/K and nifH trees was identical: 39 strains isolated from soybean grouped with Bradyrhizobium type species symbionts of soybean, whereas five others occupied isolated positions. Only one strain isolated from Stylosanthes sp. showed similar nodY/K and nifH sequences to soybean strains, and it also nodulated soybean. Twenty-one representative strains of the 16S rRNA phylogram were selected and taxonomically classified using a concatenated glnII-recA phylogeny; nodC sequences were also compared and revealed the same clusters as observed in the nodY/K and nifH phylograms. The analyses of symbiotic genes indicated that a large group of strains from the B. elkanii superclade comprised the novel symbiovar sojae, whereas for another group, including B. pachyrhizi, the symbiovar pachyrhizi could be proposed. Other potential new symbiovars were also detected. The co-evolution hypotheses is discussed and it is suggested that nodY/K analysis would be useful for investigating the symbiotic diversity of the genus Bradyrhizobium.     

A multigene approach for assessing evolutionary relationships of Xenorhabdus spp. (γ-Proteobacteria), the bacterial symbionts of entomopathogenic Steinernema nematodes

Xenorhabdus spp., are gram-negative bacterial symbionts of entomopathogenic nematodes in the genus Steinernema. A specialized and intimate relationship exists between nematode and bacteria, affecting many of their life history traits, such as nutrition, dispersal, host-finding, foraging and defense from biotic and abiotic factors. Xenorhabdus currently comprises more than 20 species isolated from Steinernema spp. with diverse host range, host foraging behavior, reproductive modes and environmental tolerance. Xenorhabdus phylogenies have historically been based on 16s rDNA sequence analyses, and only recently has data from housekeeping genes been employed. The prevalence of lateral gene transfer among bacteria calls for a wider perspective when considering their phylogeny. With the increasing number of Xenorhabdus species and strains, various perspectives need to be considered for investigating the evolutionary history of these nematode bacterial symbionts, In this study, we reconstruct the evolutionary histories of 30 species of Xenorhabdus considering the traditional 16s rDNA gene region as well as the housekeeping genes recA and serC. Datasets were analyzed individually and then combined, using a variety of phylogenetic criteria.