Elisete Pains Rodrigues

Complete genome sequence of the sugarcane nitrogen-fixing endophyte Gluconacetobacter diazotrophicus Pal5

BackgroundGluconacetobacter diazotrophicus Pal5 is an endophytic diazotrophic bacterium that lives in association with sugarcane plants. It has important biotechnological features such as nitrogen fixation, plant growth promotion, sugar metabolism pathways, secretion of organic acids, synthesis of auxin and the occurrence of bacteriocins.ResultsGluconacetobacter diazotrophicus Pal5 is the third diazotrophic endophytic bacterium to be completely sequenced. Its genome is composed of a 3.9 Mb chromosome and 2 plasmids of 16.6 and 38.8 kb, respectively. We annotated 3,938 coding sequences which reveal several characteristics related to the endophytic lifestyle such as nitrogen fixation, plant growth promotion, sugar metabolism, transport systems, synthesis of auxin and the occurrence of bacteriocins. Genomic analysis identified a core component of 894 genes shared with phylogenetically related bacteria. Gene clusters for gum-like polysaccharide biosynthesis, tad pilus, quorum sensing, for modulation of plant growth by indole acetic acid and mechanisms involved in tolerance to acidic conditions were identified and may be related to the sugarcane endophytic and plant-growth promoting traits of G. diazotrophicus. An accessory component of at least 851 genes distributed in genome islands was identified, and was most likely acquired by horizontal gene transfer. This portion of the genome has likely contributed to adaptation to the plant habitat.ConclusionThe genome data offer an important resource of information that can be used to manipulate plant/bacterium interactions with the aim of improving sugarcane crop production and other biotechnological applications.

Genomic basis of broad host range and environmental adaptability of Rhizobium tropici CIAT 899 and Rhizobium sp. PRF 81 which are used in inoculants for common bean (Phaseolus vulgaris L.).

BackgroundRhizobium tropici CIAT 899 and Rhizobium sp. PRF 81 are α-Proteobacteria that establish nitrogen-fixing symbioses with a range of legume hosts. These strains are broadly used in commercial inoculants for application to common bean (Phaseolus vulgaris) in South America and Africa. Both strains display intrinsic resistance to several abiotic stressful conditions such as low soil pH and high temperatures, which are common in tropical environments, and to several antimicrobials, including pesticides. The genetic determinants of these interesting characteristics remain largely unknown.ResultsGenome sequencing revealed that CIAT 899 and PRF 81 share a highly-conserved symbiotic plasmid (pSym) that is present also in Rhizobium leucaenae CFN 299, a rhizobium displaying a similar host range. This pSym seems to have arisen by a co-integration event between two replicons. Remarkably, three distinct nodA genes were found in the pSym, a characteristic that may contribute to the broad host range of these rhizobia. Genes for biosynthesis and modulation of plant-hormone levels were also identified in the pSym. Analysis of genes involved in stress response showed that CIAT 899 and PRF 81 are well equipped to cope with low pH, high temperatures and also with oxidative and osmotic stresses. Interestingly, the genomes of CIAT 899 and PRF 81 had large numbers of genes encoding drug-efflux systems, which may explain their high resistance to antimicrobials. Genome analysis also revealed a wide array of traits that may allow these strains to be successful rhizosphere colonizers, including surface polysaccharides, uptake transporters and catabolic enzymes for nutrients, diverse iron-acquisition systems, cell wall-degrading enzymes, type I and IV pili, and novel T1SS and T5SS secreted adhesins.ConclusionsAvailability of the complete genome sequences of CIAT 899 and PRF 81 may be exploited in further efforts to understand the interaction of tropical rhizobia with common bean and other legume hosts.

A simple, economical and reproducible protein extraction protocol for proteomics studies of soybean roots

Sample preparation is a critical step in two-dimensional gel electrophoresis (2-DE) of plant tissues. Here we describe a phenol/SDS procedure that, although greatly simplified, produced well-resolved and reproducible 2-DE profiles of protein extracts from soybean [Glycine max (L.) Merril] roots. Extractions were made in three replicates using both the original and simplified procedure. To evaluate the quality of the extracted proteins, ten spots were randomly selected and identified by mass spectrometry (MS). The 2-DE gels were equally well resolved, with no streaks or smears, and no significant differences were observed in protein yield, reproducibility, resolution or number of spots. Mass spectra of the ten selected spots were compared with database entries and allowed high-quality identification of proteins. The simplified protocol described here presents considerable savings of time and reagents without compromising the quality of 2-DE protein profiles and compatibility with MS analysis, and may facilitate the progress of proteomics studies of legume-rhizobia interactions.

Comparative genomics of Bradyrhizobium japonicum CPAC 15 and Bradyrhizobium diazoefficiens CPAC 7: elite model strains for understanding symbiotic performance with soybean

BackgroundThe soybean-Bradyrhizobium symbiosis can be highly efficient in fixing nitrogen, but few genomic sequences of elite inoculant strains are available. Here we contribute with information on the genomes of two commercial strains that are broadly applied to soybean crops in the tropics. B. japonicum CPAC 15 (=SEMIA 5079) is outstanding in its saprophytic capacity and competitiveness, whereas B. diazoefficiens CPAC 7 (=SEMIA 5080) is known for its high efficiency in fixing nitrogen. Both are well adapted to tropical soils. The genomes of CPAC 15 and CPAC 7 were compared to each other and also to those of B. japonicum USDA 6T and B. diazoefficiens USDA 110T.ResultsDifferences in genome size were found between species, with B. japonicum having larger genomes than B. diazoefficiens. Although most of the four genomes were syntenic, genome rearrangements within and between species were observed, including events in the symbiosis island. In addition to the symbiotic region, several genomic islands were identified. Altogether, these features must confer high genomic plasticity that might explain adaptation and differences in symbiotic performance. It was not possible to attribute known functions to half of the predicted genes. About 10% of the genomes was composed of exclusive genes of each strain, but up to 98% of them were of unknown function or coded for mobile genetic elements. In CPAC 15, more genes were associated with secondary metabolites, nutrient transport, iron-acquisition and IAA metabolism, potentially correlated with higher saprophytic capacity and competitiveness than seen with CPAC 7. In CPAC 7, more genes were related to the metabolism of amino acids and hydrogen uptake, potentially correlated with higher efficiency of nitrogen fixation than seen with CPAC 15.ConclusionsSeveral differences and similarities detected between the two elite soybean-inoculant strains and between the two species of Bradyrhizobium provide new insights into adaptation to tropical soils, efficiency of N2 fixation, nodulation and competitiveness.

Proteomic Analysis of Soybean (Glycine max (L.) Merrill) Roots Inoculated with Bradyrhizobium japonicum Strain CPAC 15

This research intended to analyze the expression pattern of proteins in roots of the Brazilian soybean cultivar Conquista when inoculated with Bradyrhizobium japonicum CPAC 15, a strain broadly used in commercial inoculants in Brazil. At ten days after bacterial inoculation, whole-cell proteins were extracted from roots and separated by 2-D gel electrophoresis. Comparative analysis revealed significant changes in the intensity of 37 spots due to the inoculation (17 up-regulated and 20 down-regulated proteins), identified by MALDI-TOF/TOF-TOF. Identified proteins were associated with COG functional categories of information storage and processing, cellular processes and signaling, metabolism, and also in the “poorly characterized” and “not in COG” categories. Among the up-regulated proteins, we identified sucrose synthase (nodulin-100), β-tubulin, rubisco activase, glutathione-S-transferase, a putative heat-shock 70-kDa protein, pyridine nucleotide-disulphideoxidoreductase and a putative transposase. Proteomic analysis allowed for the identification of some putative symbiotic functions and confirmed the main biological processes triggered in the nitrogen-fixing symbiosis with soybean.

Culturable bacterial pool from aged petroleum-contaminated soil: identification of oil-eating Bacillus strains

Information gleaned from soil microbiota may provide access to new economically important species. Here, we describe the isolation, identification, and genetic diversity of high-density bacterial populations isolated from aged oil-contaminated soil. Twenty different morphotypes were identified in populations present at densities of up to 107 cells g−1 soil, encompassing seven bacterial genera based on 16S rRNA sequencing. Six isolates of the genus Bacillus were identified, three of which appear to consume oil. The genetic clusters defined by the DNA fingerprinting analysis suggest that there is a close relationship between these oil-eating Bacillus species. Isolates able to grow using crude oil as a carbon source were biochemically characterized and found to exhibit high lipolytic activity in liquid medium and to produce alkaline-stable biosurfactants. Fluorescence spectroscopy analysis of the cell-free extract from the oil-eating Bacillus sp. strain MO.04b showed an increase in the relative fluorescence intensity of low-molecular-mass aromatics concomitantly with an increase in the protein content, suggesting the transformation of aromatic hydrocarbons to the liquid phase in response to biodegradation. The approach adopted in this study suggests a low diversity of the high-density bacterial population colonizing an aged oil-contaminated soil and may prove useful in selecting bacterial isolates for bioremediation studies and biotechnological applications such as biosurfactant production.

Tn5 insertion in the tonB gene promoter affects iron-related phenotypes and increases extracellular siderophore levels in Gluconacetobacter diazotrophicus

Abstract TonB-dependent receptors in concert with the TonB–ExbB–ExbD protein complex are responsible for the uptake of iron and substances such as vitamin B12 in several bacterial species. In this study, Tn5 mutagenesis of the sugarcane endophytic bacterium Gluconacetobacter diazotrophicus led to the isolation of a mutant with a single Tn5-insertion in the promoter region of a tonB gene ortholog. This mutant, named Gdiaa31, displayed a reduced growth rate and a lack of response to iron availability when compared to the wild-type strain PAL5T. Several efforts to generate null-mutants for the tonB gene by insertional mutagenesis were without success. RT-qPCR analysis demonstrated reduced transcription of tonB in Gdiaa31 when compared to PAL5T. tonB transcription was inhibited in the presence of Fe3+ ions both in PAL5T and in Gdiaa31. In comparison with PAL5T, Gdiaa31 also demonstrated decreased nitrogenase activity and biofilm formation capability, two iron-requiring physiological characteristics of G. diazotrophicus. Additionally, Gdiaa31 accumulated higher siderophore levels in culture supernatant. The genetic complementation of the Gdiaa31 strain with a plasmid that carried the tonB gene including its putative promoter region (pPtonB) restored nitrogenase activity and siderophore accumulation phenotypes. These results indicate that the TonB complex has a role in iron/siderophore transport and may be essential in the physiology of G. diazotrophicus.

Isolation, identification and screening of hidrolytic enzymes producing phylloplane yeasts

Background Microorganisms are common colonizers of superficial (phylloplane) and internal tissues (endophyte) of a variety plant species [1]. Phylloplane yeasts are considered a promising source of new and interesting biotechnological activities, particularly hydrolytic enzymes; however, the diversity of yeasts colonizing plant phylloplane and is still poorly known for most plant species. Considering the immense diversity of Brazilian flora, which include many species with medicinal properties, this knowledge is even more limited. Given the above, this study objective to isolate, identify and to evaluate the production of hidrolytic enzymes of yeasts associated with leaves, stems and flowers of alecrim-do-campo (Baccharis dracunculifolia DC), a plant recognized as the main source of exudates used by bees to produce green propolis and also, for its medicinal properties.

Identification of Genes Involved in Indole-3-Acetic Acid Biosynthesis by Gluconacetobacter diazotrophicus PAL5 Strain Using Transposon Mutagenesis

Gluconacetobacter diazotrophicus is a beneficial nitrogen-fixing endophyte found in association with sugarcane plants and other important crops. Beneficial effects of G. diazotrophicus on sugarcane growth and productivity have been attributed to biological nitrogen fixation process and production of phytohormones especially indole-3-acetic acid (IAA); however, information about the biosynthesis and function of IAA in G. diazotrophicus is still scarce. Therefore, the aim of this work was to identify genes and pathways involved in IAA biosynthesis in this bacterium. In our study, the screening of two independent Tn5 mutant libraries of PAL5T strain using the Salkowski colorimetric assay revealed two mutants (Gdiaa34 and Gdiaa01), which exhibited 95% less indolic compounds than the parental strain when grown in LGIP medium supplemented with L-tryptophan. HPLC chromatograms of the wild-type strain revealed the presence of IAA and of the biosynthetic intermediates indole-3-pyruvic acid (IPyA) and indole-3-lactate (ILA). In contrast, the HPLC profiles of both mutants showed no IAA but only a large peak of non-metabolized tryptophan and low levels of IPyA and ILA were detected. Molecular characterization revealed that Gdiaa01 and Gdiaa34 mutants had unique Tn5 insertions at different sites within the GDI2456 open read frame, which is predicted to encode a L-amino acid oxidase (LAAO). GDI2456 (lao gene) forms a cluster with GDI2455 and GDI2454 ORFs, which are predicted to encode a cytochrome C and an RidA protein, respectively. RT-qPCR showed that transcript levels of lao. cccA, and ridA genes were reduced in the Gdiaa01 as compared to PAL5T. In addition, rice plants inoculated with Gdiaa01 showed significantly smaller root development (length, surface area, number of forks and tips) than those plants inoculated with PAL5T. In conclusion, our study demonstrated that G. diazotrophicus PAL5T produces IAA via the IPyA pathway in cultures supplemented with tryptophan and provides evidence for the involvement of an L-amino acid oxidase gene cluster in the biosynthesis of IAA. Furthermore, we showed that the mutant strains with reduction in IAA biosynthesis ability, in consequence of the lower transcription levels of genes of the lao cluster, had remarkable effects on development of rice roots.

Atividade Alelopática de Exsudatos Radiculares de Milho sobre a Germinação de um Milho

Introducao: Os exsudatos radiculares produzidos por diferentes especies vegetais sao capazes de induzir respostas quimiotaticas sobre a microbiota do solo, mediando interacoes planta bacteria. Neste trabalho, exsudatos radiculares de hibridos de milho com alta (DKB 390) e baixa (DKB 240) capacidade associativa a para estudar o potencial alelopatico sobre o desenvolvimento inicial do hibrido de baixa capacidade DKB240. Metodo H2O); controle 2 (DKB240 + Ab mL); e DKB 390 (DKB240 + exsudato DKB 390, 1 mg mL inicial foi realizada apos sete dias de germinacao sob temperatura controlada (28 determinados: diâmetro de raizes, profundidade de comprimento especifico, area, comprimento total e volume, em 10 repeticoes por tratamento. Os resultados foram submetidos ao teste de medias de Tukey a 5% de significância. As avaliacoes indicaram que houve efeito alel de desenvolvimento do hibrido houve efeito alelopatico dos exsudatos testados sobre os parâmetros de desenvolvimento do hibrido DKB240, com destaque em relacao ao tratamento controle 1 (H planta (40,2%); perimetro de raizes 37,3%); area superficial de raizes (41%); comprimento total de raizes (40,3%); e volume de raizes (34,7%). Estes parâmetros nao diferiram entre os tratamentos controle 1 e controle 2 (A. brasilense Ab molecular dos exsudatos testados esta sendo realizada, e a identificacao das moleculas responsaveis pelos efeitos observados podera levar ao desenvolvimento de aditivos comerciais para uso como tratamento de sementes.