Genetic diversity of phosphate-solubilizing peanut (Arachis hypogaea L.) associated bacteria and mechanisms involved in this ability

Anzuay, María Soledad; Frola, Ornella; Angelini, Jorge Guillermo; Ludueña, Liliana Mercedes; Fabra, Adriana; Taurian, Tania

doi:10.1007/s13199-013-0250-2

Cited by 48 publications

(39 citation statements)

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“…in current study. Our results are in line with the previous studies which reported that these organic acids play a vital role in lowering the pH of the growth medium and solubilization of phosphates (Malboobi et al 2009;Andreeva et al 2011;Castagno et al 2011;Anzuay et al 2013;Tahir et al 2013). Both these strains lowered the pH of the medium and solubilized maximum amount of P (311 AE 4 by Pantoea WP-5 and 298 AE 5 by Pseudomonas NN-4) on glucose-supplemented medium.…”

Section: Discussionsupporting

confidence: 94%

“…This may be due to the reason that in DataBank (NCBI) the nucleotide sequences of pqqE gene are only available for Pseudomonas and Bacillus in BLAST search and the tested strains might have acquired this gene through horizontal gene transfer at some point of their phylogenetic history. The amplification and sequencing of pqqE gene in the phosphate-solubilizing strains of Pantoea and Pseudomonas has been reported previously (Andreeva et al 2011;Anzuay et al 2013;Kremmydas et al 2013). Our results confirmed the indirect role of pqqE gene in inorganic phosphate solubilization and this has been reported in previous studies (Ben Farhat et al 2009;Holscher et al 2009).…”

Section: Discussionsupporting

confidence: 91%

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Inoculation of pqq E gene inhabiting Pantoea and Pseudomonas strains improves the growth and grain yield of wheat with a reduced amount of chemical fertilizer

et al. 2020

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Objective: The present study was performed to examine the role of pqqE inhabiting rhizobacteria in organic acid production and relationship of the organic acids with phosphate solubilization by the bacteria in vitro as well as in vivo. Methods and Results: The pqqE gene was PCR amplified and sequenced in genomic DNA of Pantoea sp. WP-5 and Pseudomonas sp. NN-4. Nucleotide sequence obtained from WP-5 and NN-4 showed maximum sequence similarity (88 and 89%, respectively) with the pqqE gene of Pseudomonas fluorescens strain CMR12a (KM251420). Deduced amino acid sequence from pqqE gene of Pseudomonas sp. NN-4 and Pantoea sp. WP-5 showed 75 and 93% similarity, respectively, with protein pyrroloquinoline quinone. Phosphate solubilization and acid production assay were quantified on spectrophotometer and high-profile liquid chromatograph, respectively, by each bacterial strain. Both strains produced organic acids such as acetic, citric, gluconic, succinic and malic acid and lowered the pH of Pikovskaya broth medium under laboratory conditions. Phosphate solubilization by Pantoea sp. WP-5 was 311 AE 4 and 204 AE 3 µg ml À1 in the culture medium supplemented with glucose and sucrose as carbon source, respectively. Pseudomonas sp. NN-4 solubilized 176 AE 3 and 298 AE 5 µg ml À1 phosphate in Pikovskaya broth medium under similar conditions. In field experiments conducted during two consecutive years, the concentration of acetic acid and gluconic acid was higher in root exudates of plants treated with Pantoea sp. WP-5 at 30% reduced doses of nitrogen (N)-and phosphorus (P)-based chemical fertilizers as compared to non-inoculated plants. Values of chlorophyll contents, crop growth rate, leaf area index, straw yield and P contents were recorded higher in plants inoculated with Pantoea sp. WP-5 and Pseudomonas sp. NN-4 as compared to non-inoculated control. Grain yield was increased by 10-12% due to inoculation with Pantoea sp. WP-5 and Pseudomonas sp. NN-4 over noninoculated control in the field experiments. Conclusions: These results lead to the conclusions that the rhizobacteria inhabiting pqqE gene produced organic acids and solubilized the phosphate in vitro. On inoculation to wheat plants in field experiments, these strains produced the organic acids, solubilized the phosphate, and improved the P uptake and productivity of wheat.

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Section: Discussionsupporting

confidence: 94%

Section: Discussionsupporting

confidence: 91%

Inoculation of pqq E gene inhabiting Pantoea and Pseudomonas strains improves the growth and grain yield of wheat with a reduced amount of chemical fertilizer

et al. 2020

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“…Direct promotion of plant growth occurs through providing the plant with a useful compound synthesised by the bacteria, or facilitating plant uptake of specific nutrients from the environment. Pseudomonas species produce siderophores (Mavrodi et al 2001) and participate in phosphate solubilisation (Anzuay et al 2013), thereby making soil iron and phosphorus accessible to the plant. Fluorescent pseudomonads also produce the phytohormone indole-3-acetic acid (IAA; Patten & Glick 2002) and 1-aminocyclopropane-1-carboxylate (ACC) deaminase, which sequesters the ethylene precursor (Van Loon 2007).…”

Section: Introductionmentioning

confidence: 99%

Plant growth‐promoting effects of native Pseudomonas strains on Mentha piperita (peppermint): an in vitro study

et al. 2015

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Plant growth-promoting rhizobacteria (PGPR) affect growth of host plants through various direct and indirect mechanisms. Three native PGPR (Pseudomonas putida) strains isolated from rhizospheric soil of a Mentha piperita (peppermint) crop field near Córdoba, Argentina, were characterised and screened in vitro for plant growth-promoting characteristics, such as indole-3-acetic acid (IAA) production, phosphate solubilisation and siderophore production, effects of direct inoculation on plant growth parameters (shoot fresh weight, root dry weight, leaf number, node number) and accumulation and composition of essential oils. Each of the three native strains was capable of phosphate solubilisation and IAA production. Only strain SJ04 produced siderophores. Plants directly inoculated with the native PGPR strains showed increased shoot fresh weight, glandular trichome number, ramification number and root dry weight in comparison with controls. The inoculated plants had increased essential oil yield (without alteration of essential oil composition) and biosynthesis of major essential oil components. Native strains of P. putida and other PGPR have clear potential as bio-inoculants for improving productivity of aromatic crop plants. There have been no comparative studies on the role of inoculation with native strains on plant growth and secondary metabolite production (specially monoterpenes). Native bacterial isolates are generally preferable for inoculation of crop plants because they are already adapted to the environment and have a competitive advantage over non-native strains.

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“…The isolated Bacillus sp. (JRP 39) showed the highest phosphorus solubilization capacity compared to the other strains tested (Table 3), as it is known that this genus can solubilize tricalcium phosphate 19 . Our results suggest the possibility of using this bacterium as a plant growth promoter in arid and semiarid regions, as it increases the availability of inorganic phosphorus in the soil.…”

mentioning

confidence: 92%

Isolation and Characterization of Endophytic Bacteria Associated with Roots of Jojoba (<i>Simmondsia chinensis</i> (Link) Schneid)

Elvia¹,

Lilia²,

Puente³

et al. 2017

Current Science

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In this communication, the diversity and beneficial characteristics of endophytic bacteria have been studied in Simmondsia chinensis that has industrial importance because of the quality of its seed oil. Endophytes were isolated (N = 101) from roots of the jojoba plants collected, of which eight were identified by partial sequencing of the 16S rDNA gene. The isolated bacteria were Bacillus sp., Methylobacterium aminovorans, Oceanobacillus kimchi, Rhodococcus pyridinivorans and Streptomyces sp. All isolates had at least one positive feature, characterizing them as potential plant growth promoting bacteria. In this study, R. pyridinivorans and O. kimchi are reported as plant growth promoters.

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Genetic diversity of phosphate-solubilizing peanut (Arachis hypogaea L.) associated bacteria and mechanisms involved in this ability

Cited by 48 publications

References 47 publications

Inoculation of pqq E gene inhabiting Pantoea and Pseudomonas strains improves the growth and grain yield of wheat with a reduced amount of chemical fertilizer

Inoculation of pqq E gene inhabiting Pantoea and Pseudomonas strains improves the growth and grain yield of wheat with a reduced amount of chemical fertilizer

Plant growth‐promoting effects of native Pseudomonas strains on Mentha piperita (peppermint): an in vitro study

Isolation and Characterization of Endophytic Bacteria Associated with Roots of Jojoba (<i>Simmondsia chinensis</i> (Link) Schneid)

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