Wild peanut Arachis duranensis are nodulated by diverse and novel Bradyrhizobium species in acid soils

Aiming at learning the microsymbionts of Arachis duranensis, a diploid ancestor of cultivated peanut, genetic and symbiotic characterization of 32 isolates from root nodules of this plant grown in its new habitat Guangzhou was performed. Based upon the phylogeny of 16S rRNA, atpD and recA genes, diverse bacteria belonging to Bradyrhizobium yuanmingense, Bradyrhizobium elkanii, Bradyrhizobium iriomotense and four new lineages of Bradyrhizobium (19 isolates), Rhizobium/Agrobacterium (9 isolates), Herbaspirillum (2 isolates) and Burkholderia (2 isolates) were defined. In the nodulation test on peanut, only the bradyrhizobial strains were able to induce effective nodules. Phylogeny of nodC divided the Bradyrhizobium isolates into four lineages corresponding to the grouping results in phylogenetic analysis of housekeeping genes, suggesting that this symbiosis gene was mainly maintained by vertical gene transfer. These results demonstrate that A. duranensis is a promiscuous host preferred the Bradyrhizobium species with different symbiotic gene background as microsymbionts, and that it might have selected some native rhizobia, especially the novel lineages Bradyrhizobium sp. I and sp. II, in its new habitat Guangzhou. These findings formed a basis for further study on adaptation and evolution of symbiosis between the introduced legumes and the indigenous rhizobia.     

Polyphenols from peanut skins and their free radical-scavenging effects

Separation of the water-soluble fraction of peanut skins led to the isolation of five proanthocyanidins. Based on the spectroscopic investigation and partial acid catalyzed degradation, their structures were determined to be epicatechin-(2beta-->O -->7, 4beta -->6)-[epicatechin-(4beta-->8)]-catechin (1), epicatechin-(2beta-->O -->7, 4beta-->8) epicatechin-(4beta-->8)-catechin-(4alpha-->8)-epicatechin (2), and procyanidins B2 (3), B3 (4) and B4 (5). The absolute configuration of the new compounds was determined from their circular dichroism curves and the (1)H NMR spectra of analysis of flavan-3-ols formed by thiolytic degradation of 1 and 2 in the presence of a chiral dirhodium complex (dirhodium tetra-(R)-(trifluoromethyl) phenyl acetate).     

Localization of mannose- and galactose-binding lectins in an effective peanut nodule

Summary Mannose/glucose- and galactose-binding lectins (ML and GL respectively, were located by immunogold labelling in tissues of a peanut (Arachis hypogaea) nodule induced by an effectiveBradyrhizobium sp. strain. Light and electron microscopic examination of silver-enhanced semithin and ultrathin sections, respectively, revealed that both lectins were widely distributed throughout the cortex and bacteroidal zones although ML was more abundant. The lectins were predominantly in the vacuoles of cortical cells but GL was absent from, or at low concentration in, a two-cell-thick layer of cortical cells surrounding the bacteroidal region. Only ML was detected in cells of the vascular bundle endodermis and in central vascular bundle cells; neither lectin was found in pericycle cells. Bacteroidal cells contained abundant ML in the nuclei and cytoplasm surrounding bacteroids while GL was mainly located in the central vacuoles of these cells. Neither lectin was associated with bacteroid surfaces, peribacteroid membranes, plant cell walls or cell organelles and membranes. The above observations indicate that the nodule lectins are not symbiotic cell recognition determinants and suggest that they have protein storage functions.Abbreviations BSA bovine serum albumin - GL galactose-binding lectin - ML mannose-binding lectin - PBS phosphate-buffered saline - PBST phosphate-buffered saline plus Tween     

Centrosema is a promiscuous legume nodulated by several new putative species and symbiovars of Bradyrhizobium in various American countries

Centrosema is an American indigenous legume that can be used in agroecosystems for recovery of acidic and degraded soils. In this study, a Centrosema-nodulating rhizobial collection of strains isolated in a poor acid savanna soil from Venezuela was characterized, and the members of the collection were compared to other Centrosema strains from America. The analysis of the rrs gene showed that the strains nodulating Centrosema in American countries were closely related to different species of the genus Bradyrhizobium. However, the analysis of the atpD and recA genes, as well as the 16S–23S ITS region, showed that they formed several new phylogenetic lineages within this genus. The Venezuela strains formed three lineages that were divergent among themselves and with respect to those formed by Centrosema strains isolated in other countries, as well as to the currently described species and genospecies of Bradyrhizobium. In addition, the symbiotic genes nodC and nifH carried by Centrosema-nodulating strains were analyzed for the first time, and it was shown that they belonged to three new phylogenetic lineages within Bradyrhizobium. The nodC genes of the Centrosema strains were divergent among themselves and with respect to the genistearum and glycinearum symbiovars, indicating that Centrosema is a promiscuous legume. According to these results, the currently known Centrosema-nodulating strains represent several new putative species and symbiovars of the genus Bradyrhizobium.     

Vigna unguiculata is nodulated in Spain by endosymbionts of Genisteae legumes and by a new symbiovar (vignae) of the genus Bradyrhizobium

Vigna unguiculata was introduced into Europe from its distribution centre in Africa, and it is currently being cultivated in Mediterranean regions with adequate edapho-climatic conditions where the slow growing rhizobia nodulating this legume have not yet been studied. Previous studies based on rrs gene and ITS region analyses have shown that Bradyrhizobium yuanmingense and B. elkanii nodulated V. unguiculata in Africa, but these two species were not found in this study. Using the same phylogenetic markers it was shown that V. unguiculata, a legume from the tribe Phaseolae, was nodulated in Spain by two species of group I, B. cytisi and B. canariense, which are common endosymbionts of Genisteae in both Europe and Africa. These species have not been found to date in V. unguiculata nodules in its African distribution centres. All strains from Bradyrhizobium group I isolated in Spain belonged to the symbiovar genistearum, which is found at present only in Genisteae legumes in both Africa and Europe. V. unguiculata was also nodulated in Spain by a strain from Bradyrhizobium group II that belonged to a novel symbiovar (vignae). Some African V. unguiculata-nodulating strains also belonged to this proposed new symbiovar.     

Transformation of peanut using a modified bacterial mercuric ion reductase gene driven by an actin promoter from Arabidopsis thaliana

In order to test an alternative selectable marker system for the production of transgenic peanut plants (Arachis hypogaea), the bacterial mercuric ion reductase gene, merA, was introduced into embryogenic cultures via microprojectile bombardment. MerA reduces toxic Hg(II) to the volatile and less toxic metallic mercury molecule, Hg(0), and renders its source Gram-negative bacterium mercury resistant. A codon-modified version of the merA gene, MerApe9, was cloned into a plant expression cassette containing the ACT2 promoter from Arabidopsis thaliana and the NOS terminator. The expression cassette also was inserted into a second vector containing the hygromycin resistance gene driven by the UBI3 promoter from potato. Stable transgenic plants were recovered through hygromycin-based selection from somatic embryo tissues bombarded with the plasmid containing both genes. However, no transgenic somatic embryos were recovered from selection on 50-100 micromol/L HgCl2. Expression of merA as mRNA was detected by Northern blot analysis in leaf tissues of transgenic peanut, but not in somatic embryos. Western blot analysis showed the production of the mercuric ion reductase protein in leaf tissues. Differential responses to HgCl2 of embryo-derived explants from segregating R1 seeds of one transgenic line also were observed.     

Genetic diversity of root nodulating bacteria associated with Retama sphaerocarpa in sites with different soil and environmental conditions

The genetic diversity of root nodulating bacteria isolated from Retama sphaerocarpa was studied using BOX-A1R PCR and phylogenetic analysis of the 16S rRNA region, as well as the housekeeping genes atpD, glnII and recA. A total of 193 isolates were obtained from eight different sites with different soil and environmental conditions in the Iberian Peninsula. These isolates corresponded to 31 different strains that successfully nodulated R. sphaerocarpa seedlings in reinoculation trials. About one-third of the strains clustered with B. canariense or B. cytisi within Bradyrhizobium group I. The remaining strains clustered with B. elkanii/B. pachyrhizi within Bradyrhizobium group II or in separate clades that could represent new lineages. Based on the 16S rRNA and combined atpD + glnII + recA sequences, two to three lineages of root nodulating bacteria were found at each sampling site, except for Collado Garcia where five species were detected. B. canariense and B. elkanii/B. pachyrhizi were the most abundant species, whereas the least abundant were those related to B. retamae and a putative new lineage. B. canariense was found only in soils with neutral and acid pH, whereas B. retamae was the dominant species in alkaline soils.     

Immunogold localization of nodule-specific uricase in developing soybean root nodules

Immunogold labeling was used to study the time of appearance and distribution of a nodule-specific form of uricase (EC 1.7.3.3) in developing nodules of soybean (Glycine max (L.) Merr.) inoculated with Bradyrhizobium japonicum. The enzyme was detected in thin sections of tissue embedded in either L R White acrylic resin or Spurr's epoxy resin, by employing a polyclonal antibody preparation active against a subunit of soybean nodule uricase. Antigenicity was better preserved in L R White resin, but ultrastructure was better maintained in Spurr's. Uricase was first detectable with protein A-gold in young, developing peroxisomes in uninfected cells, coincident with the release of Bradyrhizobium bacteroids from infection threads in adjacent infected cells. As the peroxisomes enlarged, labeling of the dense peroxisomal matrix increased. Gold particles were never observed over the paracrystalline inclusions of peroxisomes, however. Despite a close association between enlarging peroxisomes and tubular endoplasmic reticulum, uricase was not detectable in the latter. In mature nodules, labeling of uricase was limited to the large peroxisomes in uninfected cells. Small peroxisome-like bodies present in infected cells did not become labeled.Abbreviations BSA bovine serum albumin - Da dalton - ER endoplasmic reticulum - IgG immunoglobulin G     

MALDI-TOF mass spectrometry as a tool for differentiation of Bradyrhizobium species: Application to the identification of Lupinus nodulating strains

Genus Bradyrhizobium includes slow growing bacteria able to nodulate different legumes as well as species isolated from plant tumours. The slow growth presented by the members of this genus and the phylogenetic closeness of most of its species difficults their identification. In the present work we applied for the first time Matrix-Assisted Laser Desorption Ionization-Time-of-Flight Mass Spectrometry (MALDI-TOF MS) to the analysis of Bradyrhizobium species after the extension of MALDI Biotyper 2.0 database with the currently valid species of this genus. With this methodology it was possible to identify strains belonging to phylogenetically closely related species of genus Bradyrhizobium allowing the discrimination among species with rrs gene identities higher than 99%. The application of MALDI-TOF MS to strains isolated from nodules of different Lupinus species in diverse geographical locations allowed their correct identification when comparing with the results of rrs gene and ITS analyses. The nodulation of Lupinus gredensis, an endemic species of the west of Spain, by B. canariense supports the European origin of this species.     

The occurrence of leghemoglobin protein in the uninfected interstitial cells of soybean root nodules

The distribution of leghemoglobin (Lb) in resin-embedded root nodules of soybean (Glycine max (L.) Merr.) was investigated using immunogold labeling. Using anti-Lb immunoglobulin G and protein A-gold, Lb or its apoprotein was detected both in cells infected by Bradyrhizobium japonicum and in uninfected interstitial cells. Leghemoglobin was present in the cytoplasm, exclusive of the organelles, and in the nuclei of both cell types. In a comparison of the density of labeling in adjacent pairs of infected and uninfected cells, Lb was found to be about four times more concentrated in infected cells. This is the first report of Lb in uninfected cells of any legume nodule; it raises the possibility that this important nodule-specific protein may participate in mediating oxygen flow to host plant organelles throughout the infected region of the nodule.Abbreviations BSA bovine serum albumin - IgG immunoglobulin G - kDA kilodalton - Lb leghemoglobin - TBST Tris-buffered saline plus Tween 20     

Genetic diversity and symbiotic evolution of rhizobia from root nodules of Coronilla varia

Ninety symbiotic rhizobial isolates from root nodules of Coronilla varia growing in the Shaanxi province of China were characterized. Combined with the results of RFLP patterns, six genotypes were defined among the rhizobial strains and they were divided into three genomic genera. These included Mesorhizobium sp., M. alhagi, M. amorphae, M. metallidurans/M. gobiense as the dominant group (86.7%), and Rhizobium yanglingense and Agrobacterium tumefaciens as the minor groups, according to analysis of the corresponding 16S rRNA, nodC and nifH genes. Five nodC types, which mainly grouped into the Mesorhizobium genus, were obtained from all the isolates examined, implying that nodC genes probably occurred from the native habitat through lateral transfer and long-term adaptation, finally evolving toward M. alhagi. Four different nifH types, displaying obvious differences compared to those of 16S rRNA and nodC, implied that possible lateral transfer of the symbiotic genes occurred between different genera. The association between soil components and the genetic diversity of the rhizobial population demonstrated that combined genotypes were positively correlated with the pH of soil samples.     

Diversity of frankiae in root nodules of Morella pensylvanica grown in soils from five continents

Bioassays with Morella pensylvanica as capture plant and comparative sequence analyses of nifH gene fragments of Frankia populations in nodules formed were used to investigate the diversity of Frankia in soils over a broad geographic range, i.e., from sites in five continents (Africa, Europe, Asia, North America, and South America). Phylogenetic analyses of 522-bp nifH gene fragments of 100 uncultured frankiae from root nodules of M. pensylvanica and of 58 Frankia strains resulted in a clear differentiation between frankiae of the Elaeagnus and the Alnus host infection groups, with sequences from each group found in all soils and the assignment of all sequences to four and five clusters within these groups, respectively. All clusters were formed or dominated by frankiae obtained from one or two soils with single sequences occasionally present from frankiae of other soils. Variation within a cluster was generally low for sequences representing frankiae in nodules induced by the same soil, but large between sequences of frankiae originating from different soils. Three clusters, one within the Elaeagnus and two within the Alnus host infection groups, were represented entirely by uncultured frankiae with no sequences from cultured relatives available. These results demonstrate large differences in nodule-forming frankiae in five soils from a broad geographic range, but low diversity of nodule-forming Frankia populations within any of these soils.     

Gammaproteobacteria occurrence and microdiversity in Tyrrhenian Sea sediments as revealed by cultivation-dependent and -independent approaches

Bacterial diversity in Tyrrhenian Sea sediments was assessed using cultivation-dependent and -independent approaches. Samples collected from the different sediment layers (up to 30 cm) relative to four seamount and non-seamount stations, at depths from 3425 to 3580 m, were subjected to DNA extraction and 16S rRNA amplification targeting the V3 region. Denaturing gradient gel electrophoresis (DGGE) showed several heterogeneous profiles and 27 single bands were excised and sequenced. Sequence analysis revealed the presence of Firmicutes, Actinobacteria and Chloroflexi in 26% of the DGGE bands and a predominance of sequences affiliated to cultivable and uncultivable clones of Gammaproteobacteria (55%). To corroborate these findings, cultivation attempts were performed that allowed the isolation of 87 strains assigned to the proteobacterial classes. Identification was achieved by means of automated ribosomal intergenic spacer analysis (ARISA) and by 16S rDNA sequencing. The isolates were related to the gamma, alpha and beta subclasses of Proteobacteria with respective percentages of 77, 17 and 6%. The most predominant Gammaproteobacteria isolates, assigned to the Psychrobacter marincola and P. submarinus clade (n = 53) and to Halomonas aquamarina (n = 14), showed a huge intraspecific diversity with 29 distinct ARISA haplotypes. The detection by both approaches of these psychrophilic and moderately halophilic species and their extensive microdiversity indicated their predominance in Tyrrhenian Sea sediments where they constituted the indigenous microflora.     

Identification and annotation of abiotic stress responsive candidate genes in peanut ESTs

Peanut (Arachis hypogaea L.) ranks fifth among the world oil crops and is widely grown in India and neighbouring countries. Due to its large and unknown genome size, studies on genomics and genetic modification of peanut are still scanty as compared to other model crops like Arabidopsis, rice, cotton and soybean. Because of its favourable cultivation in semi-arid regions, study on abiotic stress responsive genes and its regulation in peanut is very much important. Therefore, we aim to identify and annotate the abiotic stress responsive candidate genes in peanut ESTs. Expression data of drought stress responsive corresponding genes and EST sequences were screened from dot blot experiments shown as heat maps and supplementary tables, respectively as reported by Govind et al. (2009). Some of the screened genes having no information about their ESTs in above mentioned supplementary tables were retrieved from NCBI. A phylogenetic analysis was performed to find a group of utmost similar ESTs for each selected gene. Individual EST of the said group were further searched in peanut ESTs (1,78,490 whole EST sequences) using stand alone BLAST. For the prediction as well as annotation of abiotic stress responsive selected genes, various tools (like Vec-Screen, Repeat Masker, EST-Trimmer, DNA Baser, WISE2 and I-TASSER) were used. Here we report the predicted result of Contigs, domain as well as 3D structure for HSP 17.3KDa protein, DnaJ protein and Type 2 Metallothionein protein.     

Bradyrhizobium canariense and Bradyrhizobium japonicum are the two dominant rhizobium species in root nodules of lupin and serradella plants growing in Europe

Forty three Bradyrhizobium strains isolated in Poland from root nodules of lupin species (Lupinus albus, L. angustifolius and L. luteus), and pink serradella (Ornithopus sativus) were examined based on phylogenetic analyses of three housekeeping (atpD, glnII and recA) and nodulation (nodA) gene sequences. Additionally, seven strains originating from root-nodules of yellow serradella (O. compressus) from Asinara Island (Italy) were included in this study. Phylogenetic trees revealed that 15 serradella strains, including all yellow serradella isolates, and six lupin strains grouped in Bradyrhizobium canariense (BC) clade, whereas eight strains from pink serradella and 15 lupin strains were assigned to Bradyrhizobium japonicum (BJ1). Apparently, these species are the two dominant groups in soils of central Europe, in the nodules of lupin and serradella plants. Only three strains belonged to other chromosomal lineages: one formed a cluster that was sister to B. canariense, one strain grouped outside the branch formed by B. japonicum super-group, and one strain occupied a distant position in the genus Bradyrhizobium, clustering with strains of the Rhodopseudomonas genus. All strains in nodulation nodA gene tree grouped in a cluster referred to as Clade II, which is in line with earlier data on this clade dominance among Bradyrhizobium strains in Europe. The nodA tree revealed four well-supported subgroups within Clade II (II.1-II.4). Interestingly, all B. canariense strains clustered in subgroup II.1 whereas B. japonicum strains dominated subgroups II.2-II.4.     

Comparison of anionic with cationic peroxidase from cultured peanut cells

A cationic and an anionic peanut peroxidase were isolated to purity as shown by 2D electrophoresis. Amino acid analysis offered evidence for differences. Variations between the isozymes were also noted in a slight difference in the heme absorption maxima, specific enzyme activity and particularly in the relative amount of each in the suspension medium measured by the heme absorption. In contrast the two isozymes were at least partially similar in their structure as demonstrated by the crossreaction with the antisera. The percent crossreactions were used in turn to amend the calculation for the synthetic rate of each isozyme. In spite of the difference in amount secreted in the suspension medium, the in vivo biosynthetic rate of the two isozyme measured cellularly is much the same.     

Bradyrhizobium rifense sp. nov. isolated from effective nodules of Cytisus villosus grown in the Moroccan Rif

Two bradyrhizobial strains, CTAW71(T) and CTAW69, previously isolated from root nodules of Cytisus villosus, have been analysed using a polyphasic approach. These strains have identical 16S rRNA genes and their closest relative species is Bradyrhizobium cytisi, whose type strain CTAW11(T) presented 99.8% identity with respect to strain CTAW71(T). Despite the closeness of the 16S rRNA genes, the housekeeping genes recA, atpD and glnII harboured by strain CTAW71(T) were divergent to those from B. cytisi CTAW11(T), with identity values of 93%, 95% and 97%, respectively. These differences were congruent with DNA-DNA hybridization analysis that revealed an average of 37% relatedness between strain CTAW71(T) and B. cytisi CTAW11(T). Phenotypic characteristics were identical for strains CTAW71(T) and CTAW69, but differed from those of the described species from genus Bradyrhizobium. Based on the genotypic and phenotypic data obtained in this study, we propose that strains CTAW71(T) and CTAW69 should be classified into a new species for which the name Bradyrhizobium rifense sp. nov. is proposed (type strain CTAW71(T)=LMG 26781(T)=CECT 8066(T)).     

Quantitative real-time PCR detection of Pseudomonas oleovorans subsp. lubricantis using TaqMan-MGB assay in contaminated metalworking fluids

Metalworking fluids (MWFs) are highly prone to microbial contamination, which leads to their degradation and biofouling. Pseudomonas oleovorans subsp. lubricantis, a newly described subspecies, was found to be important to MWF fouling. However, the actual distribution of P. oleovorans subsp. lubricantis in MWF is difficult to study using standard culturing techniques. To overcome this, a study was conducted to design a specific quantitative real-time PCR (qPCR) assay using TaqMan^®MGB (minor groove binding) probe for its identification and estimated quantification in contaminated MWFs. The gyrB housekeeping gene sequence was selected for designing a TaqMan^® MGB primer-probe pair using the Allele ID^® 5.0 probe design software for the assay. Whole-cell qPCR was performed with MWF spiked directly with P. oleovorans subsp. lubricantis (eliminating DNA extractions using commercial kit); the primer-probe pair’s sensitivity was 10¹ colony forming units (CFU) ml⁻¹. The assay provided no amplification with other closely related Pseudomonas species found in MWFs indicating its specificity. It was successful in identifying and enumerating P. oleovorans subsp. lubricantis from several used MWFs having between 10⁴ and 10⁶ CFU ml⁻¹. The designed TaqMan^® MGB probe thus can be successfully used for the subspecies-specific identification of P. oleovorans subsp. lubricantis and facilitates the study of its impact on MWFs.     

Repetitive somatic embryogenesis in peanut cotyledon cultures by continual exposure to 2,4-d

Somatic embryos from immature cotyledons in peanut (Arachis hypogaea) were initiated on media supplemented with 2,4-dichlorophenoxyacetic acid (2,4-d). Over 90% primary embryogenesis and 41–46% repetitive embryogenesis were obtained 12 weeks after initiation by maintaining embryogenic cultures on medium containing 20 mg 1^-1 2,4-d. Maintenance of cultures on medium with 30 or 40 mg I^-1 2,4-d resulted in lower primary and secondary embryogenesis, and proliferation of nonembryogenic callus. Transfer of embryogenic cultures to a secondary medium with 10 or 20 mg I^-1 2,4-d significantly enhanced secondary embryogenesis compared to basal medium without the growth regulator. The use of Murashige & Skoog versus Finer's media had no significant effect on embryogenesis (85–95%), repetitive embryogenesis (11–37%) or mean embryo number. Secondary embryogenesis was also maintained for over one year by repeated subculture of isolated somatic embryos on medium with 20 mg I^-1 2,4-d.Abbreviations B5 Gamborg et al. medium (Gamborg et al. 1968) - 2,4-d 2,4-dichlorophenoxyacetic acid - FN Finer & Nagasawa medium (Finer & Nagasawa 1968) - MS Murashige & Skoog medium (Murashige & Skoog 1962)