Organic acid utilization,succinate excretion,encystation and oscillating nitrogenase activity inAzospirillum brasilense under microaerobic conditions

Oscillating nitrogenase activity in long lasting batch cultures ofAzospirillum brasilense ATCC 29145 is independent of the carbon source malate. With fumarate, succinate or pyruvate as sole carbon source nitrogenase activity is also oscillating. Cultivation in a medium with 20-fold the buffer concentration also results in oscillating nitrogenase activity. Nitrogen-fixing cultures ofAzospirillum brasilense ATCC 29145 excrete ammonia into the culture medium varying between 0.02 and 0.04 mM concentrations. This is not sufficient to cause a drop of nitrogenase activity inAzospirillum brasilense after the first maximum. During growth under nitrogen-fixing conditions with malate as carbon source, the cells excrete significant quantities of succinate into the culture medium. Cultures with only 0.05% malate reutilized the excreted succinate as soon as malate disappeared from the medium. Azospirillum brasilense ATCC 29145 is shown to have the capability of encystation. Encysted cells are different from vegetative cells in their resistance to desiccation, by the spherical shape and by immotility. The results indicate that oscillating nitrogenase activity in long lasting cultures reflects the development from vegetative cells to cysts and again to vegetative cells under microaerobic conditions.     

Organic acids and prolonged nitrogenase activity by non-growing,free-living Rhizobium japonicum

Rhizobium japonicum 61-A-101 grew and fixed nitrogen more effectively on media containing an organic acid and a pentose sugar than on media containing only one of these carbon sources. Peak specific activities in the range 10–15 nmol C₂H₄ · h^-1 · mg protein^-1 were found for these organisms in a spot of growth about 1 cm diameter on agar surfaces exposed to air. Increasing concentrations of the organic acids (succinate or malonate) in a medium containing arabinose resulted in longer lasting activity. The inclusion of a third carbon source, glycerol, gave activity which remained at the maximum from about the 8 to the 18 day after inoculation although no growth of the bacteria occurs during the last 8 or 10 days. At low concentration of organic acid l-arabinose was a much better carbon source for supporting nitrogenase activity of these organisms that the d-form. Both organic acids affected the morphology of the bacteria. Higher concentrations, especially of malonate, gave swollen and distorted cells. When bacteria growing on organic acid-containing agar plates were suspended and plated after appropriate dilution on yeast extract — mannitolglycerol agar there was heterogeneity of colony form, with up to 90% microcolonies after growth on high malonate concentrations. The effects of malonate may be correlated with characteristics of the bacteroid form inside the nodule which contains relatively high concentrations of organic acids, especially malonate.     

Associative effect ofAzospirilium brasilense withRhizobium japonicum on nodulation and yield of soybean (Glycine max)

Summary Azospirillum was associated with nodules of soybean. In general, seed inoculation with a broth culture ofAzospirillum brasilense alone significantly increased nodulation and grain yield of soybean grown in pots in unsterilized soil with different levels of urea ranging from 0 to 80 kg N/ha. This trend was significantly reproducible in a second experiment when a carrier based inoculant of the bacterium was used for seed inoculation.Inoculation withRhizobium japonicum andA. brasilense in combination generally increased grain yield in both the experiments, although the data were not significant.     

Mass-spectrometric kinetic studies of the nitrogenase and hydrogenase activities in in-vivo cultures of Azospirillum brasilense Sp. 7

Acetylene reduction, deuterium uptake and hydrogen evolution were followed in in-vivo cultures of Azospirillum brasilense, strain Sp 7, by a direct mass-spectrometric kinetic method. Although oxygen was needed for nitrogenase functioning, the enzyme was inactivated by a fairly low oxygen concentration in the culture and an equilibrium had to be found between the rate of oxygen diffusion and bacterial respiration. A nitrogenase-mediated hydrogen evolution was observed only in the presence of carbon monoxide inhibiting the uptake hydrogenase activity which normally recycles all the hydrogen produced. However, under anaerobic conditions and in the presence of deuterium, a bidirectional hydrogenase activity was observed, consisting in D₂ uptake and in H₂ and HD evolution. In contrast to the nitrogenase-mediated H₂ production, this anaerobic H₂ and HD evolution was insensitive to the presence of acetylene and was partly inhibited by carbon monoxide. It was moreover relatively unaffected by the deuterium partial pressure. These results suggest that the anaerobic H₂ and HD evolution can be ascribed to a reverse hydrogenase activity under conditions where D₂ is saturating the uptake process and scavenging the electron acceptors. Although the activities of both nitrogenase and hydrogenase were thus clearly differentiated, a close relationship was found between their respective functioning conditions.     

Biphasic nitrogenase activity in Azospirillum brasilense in long lasting batch cultures

Long lasting batch cultures of Azospirillum brasilense SP 7 ATCC 29145 grown in liquid malate medium for 8–14 days without any fixed nitrogen source exhibited a biphasic nitrogenase activity, when incubated under gas atmospheres of 99.0% N₂ and 1.0% O₂ or 99.5% N₂ and 0.5% O₂ respectively. Maximum specific nitrogenase activity was 1100 nmol C₂H₄·mg protein^-1·h^-1. Poly-3-hydroxybutanoic acid (PHBA) synthesis and growth of the cells also showed two phases. Maxima and minima of glutamine synthetase activity developed synchronously with nitrogenase activity, whereas those of glutamate dehydrogenase and alanine aminotransferase were reverse. During a 192 h period of growth protein increased 3–4-fold and PHBA 25 fold. At maximum accumulation of the polymer the PHBA-nitrogen ratio was 6:1 or 8:1. Azospirillum brasilense was also able to fix nitrogen on agar surfaces exposed to air, but nitrogen fixation was monophasic under these conditions during a 14 d period. Specific nitrogenase activity was dependent on the type and concentration of the source of fixed nitrogen (leucine, ammonia) in solidified media. With 1 mM leucine maximum specific nitrogenase activity was 110 nmol C₂H₄·mg protein^-1·h^-1.Non-Standard Abbreviations PHBA poly-3-hydroxybutanoic acid - TAPS tris(hydroxymethyl)methylaminopropane sulfonic acid - TES N-tris(hydroxymethyl)methyl-2-aminoethane sulfonic acid - TRICINE N-tris(hydroxymethyl)methylglycine - TRIS tris(hydroxymethyl)aminomethane     

Production of vitamins by Azospirillum brasilense in chemically-defined media

The production of vitamins by Azospirillum brasilense was studied in chemically-defined media amended with malate, gluconate and fructose. The liberation of vitamins was significantly affected by the presence of different carbon sources and the age of the culture. Thiamine, niacin and pantothenic acid were produced in large amounts. Thiamine and riboflavin were produced only in culture containing malate or fructose. Biotin was not detected in the supernatants of the culture media.     

Response to oxygen of diazotrophic Azospirillum brasilense — Arthrobacter giacomelloi mixed batch culture

Azospirillum brasilense and Arthrobacter giacomelloi were grown together in batch culture under different oxygen pressures. The response to oxygen of growth, nitrogenase activity and respiration rate was determined. The two microorganisms were found to be able to coexist all over the range of partial oxygen pressures examined, that is from 0.004–0.20 bar. Nitrogenase activity by mixed culture of A. brasilense and A. giacomelloi always appeared higher than that of A. brasilense pure culture. Low respiratory activity at partial oxygen pressures higher than 0.02 bar by both pure and mixed cultures seemed not to account for the high nitrogenase activity and improved oxygen tolerance of the mixed culture.Abbreviations pO₂ partial oxygen pressure     

Analysis of DNA,lipopolysaccharide structure,and some cultural and morphological properties in closely related strains of Azospirillum brasilense

We studied closely related Azospirillum brasilense strains Sp7 and Cd. For probing of their genomes, the fragments of 85 MDa (p85) and 120 MDa (p120) from A. brasilense Sp245 plasmids were hybridized with 115-MDa (p115) and 90-MDa (p90) plasmids of strain Sp7, respectively. Strain Cd was found to lose the 115-MDa plasmid and one of the two EcoRI restriction fragments of the total DNA (localized within p115 and the chromosome) that was homologous to an EcoRI-generated p85 fragment of 2.4 kb. On the contrary, in the total DNA of strain Sp7-S, in spite of the previously established disappearance of the 115-MDa replicon, two fragments homologous to p85 were revealed, as with strain Sp7. It is suggested that the Sp7-S genome contains the total p115 DNA or at least a certain part of it. Strains Sp7 and Cd were found to differ in size and morphology of colonies on solid and semisolid media, in the levels of resistance to the cation surfactant cetavlon, and in the antigen structure of lipopolysaccharides.__________Translated from Mikrobiologiya, Vol. 74, No. 2, 2005, pp. 224–230.Original Russian Text Copyright © 2005 by Petrova, Matora, Burygin, Borisov, Katsy.     

Colonization of wheat by Azospirillum brasilense Cd is impaired by saline stress

The effect of saline stress on the colonization of wheat was analyzed by using Azospirillum brasilense Cd carrying the fusion of the reporter gene lacZ (β-galactosidase) with the N₂ fixation gene promoter nifA. Colonization was also studied by inducing para-nodules on wheat roots using 2,4-D, establishing that these structures acted as bacterium protected niches. Bacteria grown under standard conditions were distributed along the whole root system, except the elongation zone, and colonized the para-nodules. Bacteria experiencing saline stress were mainly localized at the root tips and the lateral roots. In 2,4-D treated plants, most of the bacteria were present around the basal surface of the modified lateral root structures. Using the MPN method, there were not statistical differences between the numbers of control and stressed bacteria. As this method estimates endophytic colonization in contrast with the one using X-gal, which emphasizes colonization on the root surface, both procedures demonstrated to be necessary, concluding that salt treatment reduced surface colonization (X-gal) but not colonization inside the root. The bacterial counts made on inoculated wheat roots indicated higher numbers of both control and stressed bacteria in roots treated with 2,4-D compared with untreated roots. This revised version was published online in June 2006 with corrections to the Cover Date.     

Ammonia inhibition of nitrogenase activity in purple and green bacteria

Ammonia reversibly inhibits the nitrogenase activity not only in purple nonsulfur bacteria but in purple (Thiocapsa roseopersicina) and green (Chlorobium limicola forma thiosulfatophilum) sulfur bacteria as well.The complete inhibition of nitrogenase activity (acetylene reduction) is observed about 30 s after addition of NH ₄ ⁺ (2.5×10^-6 M) to cell suspensions. The pattern of ammonia inhibition of acetylene reduction in T. roseopersicina does not differ from the action of tetrabutylammonium and tetraphenylphosphonium (3 · 10^-6-5·10^-5 M) on nitrogenase activity of this bacterium.Simultaneously with the switch-off effect of NH ₄ ⁺ a considerable increase of ATP in cells of Rhodobacter sphaeroides and C. limicola f. thiosulphatophilum was observed.     

The effect of inoculation with Azospirillum brasilense on growth and nitrogen utilization by wheat plants

Azospirillium brasilense is a rhizosphere bacteria that has been reported to improve yield when inoculated on wheat plants. However, the mechanisms through which this effect is induced is still unclear. In the present work, we have studied the effects of inoculating a highly efficient A. brasilense strain on wheat plant grown in 5 kg pots with soil in a greenhouse, under three N regimes (0, 3 or 16 mM NO₃ ^–, 50 ml/pot once or twice-a -week), and in disinfected or non-disinfected soil. At the booting stage, the inoculated roots in both soils showed a similar colonization by Azospirillum sp. that was not affected by N addition. The plants grown in the disinfected soil showed a higher biomass, N content and N concentration than those in the non-disinfected soil, and in both soils the inoculation stimulated plant growth, N accumulation, and N and NO₃ ^– concentration in the tissues.At maturity, the inoculated plants showed a higher biomass, grain yield and N content than the uninoculated ones in both soils, and a higher grain protein concentration than the uninoculated. It is concluded that in the present experiments, A. brasilenseincreased plant growth by stimulating nitrogen uptake by the roots.     

1,3-Propanediol production by Klebsiella pneumoniae under different aeration strategies

1,3-Propanediol production by Klebsiella pneumoniae was studied in batch cultures under N2 flow and four airflow systems. Different byproducts were formed under different aeration conditions. An anaerobic/aerobic combined fed-batch culture was developed giving 70 g 1,3-propanediol l(-1) and 16 g 2,3-butanediol l(-1) with total diol yield of 0.6 mol(-1) glycerol.     

Lack of specific binding of labeledRhizobium japonicum lipopolysaccharides to wild soybean (Glycine soja) roots

Summary Lipopolysaccharides (LPS) were extracted from two strains ofRhizobium japonicum (61A76NS and 3I1b110-I). The extracted LPS was purified by gel filtration column chromatography and the amount of 2-keto-3-deoxyoctonate (KDO) was determined. Column purified LPS from both strains were conjugated to rhodamine isothiocyanate on celite to examine binding of this purified, labeled surface component to aseptically grownGlycine soja (wild soybean) seedlings as a basis for symbiotic specificity using fluorescent microscopy. Rhodamine conjugated LPS from both strains ofRhizobium japonicum did not exhibit specific binding to wild soybean seedling roots.Paper no. 8130 of the Journal Series of the North Carolina Agricultural Research Service, Raleigh, NC 27650, USA.     

Temperature control of nitrogen fixation in Klebsiella pneumoniae

At growth temperatures above 37°C, Klebsiella pneumoniae does not grow in a medium containing N₂ or NO ₃ ^- as nitrogen sources. However, both the growth in the presence of other nitrogen sources as well as the in vitro nitrogenase activity are not affected at this temperature. The inability to fix N₂ at high temperature is due to the failure of the cells to synthesize nitrogenase and other nitrogen fixation (nif) gene encoded proteins. When cells grown under nitrogen fixing conditions at 30°C were shifted to 39°C, there was a rapid decrease of the rate of de novo biosynthesis of nitrogenase (component 1), nitrogenase reductase (component 2), and the nifJ gene product. There was no degradation of nitrogenase at the elevated temperature since preformed enzyme remained stable over a period of at least 3 h at 39°C. Thus, temperature seems to represent a third control system, besides NH ₄ ⁺ and O₂, governing the expression of nif genes of K. pneumoniae.     

Molecular typing of Klebsiella pneumoniae isolates from public hospitals in Recife, Brazil

Thirty nosocomial isolates of Klebsiella pneumoniae, collected from three public hospitals in Recife, Brazil, between 1999 and 2000, were analysed in order to determine their epidemiological relatedness and genetic characteristics. The isolates were characterised by biotyping, antibiotyping, protein analysis, plasmid profile and random amplified polymorphic DNA (RAPD). The majority of the clinical isolates were resistant to multiple antibiotics, in particular to beta-lactams, and 30% were found to be ESBLs producers. RAPD proved to be the most effective technique in discriminating unrelated K. pneumoniae isolates. It was confirmed by the highly genetic similarity found among related isolates from an hospital outbreak. We conclude that K. pneumoniae infections in Recife has been caused by a variety of bacterial genotypes. This is the first report that revealed the subtypes of K. pneumoniae in Brazil by plasmid analysis and RAPD.     

Metabolism of acrylonitrile by Klebsiella pneumoniae

A gram-negative rod-shaped bacterium capable of utilizing acrylonitrile as the sole source of nitrogen was isolated from industrial sewage and identified as Klebsiella pneumoniae. The isolate was capable of utilizing aliphatic nitriles containing 1 to 5 carbon atoms or benzonitrile as the sole source of nitrogen and either acetamide or propionamide as the sole source of both carbon and nitrogen. Gas chromatographic and mass spectral analyses of culture filtrates indicated that K. pneumoniae was capable of hydrolyzing 6.15 mmol of acrylonitrile to 5.15 mmol of acrylamide within 24 h. The acrylamide was hydrolyzed to 1.0 mmol of acrylic acid within 72 h. Another metabolite of acrylonitrile metabolism was ammonia, which reached a maximum concentration of 3.69 mM within 48 h. Nitrile hydratase and amidase, the two hydrolytic enzymes responsible for the sequential metabolism of nitrile compounds, were induced by acrylonitrile. The optimum temperature for nitrile hydratase activity was 55°C and that for amidase was 40°C; both enzymes had pH optima of 8.0.Abbreviations PBM phosphate buffered medium - GC gas chromatography - GC/MS gas chromatography/mass spectrometry     

Production of 1,3-propanediol by Klebsiella pneumoniae from glycerol broth

Broth containing 152 g glycerol l⁻¹ from Candida krusei culture was converted to 1,3-propanediol by Klebsiella pneumoniae. Residual glucose in the broth promoted growth of K. pneumoniae while acetate was inhibitory. After desalination treatment of glycerol broth by electrodialysis, the acetate in the broth was removed. A fed-batch culture with electrodialytically pretreated broth as␣substrate was developed giving 53 g 1,3- propanediol l⁻¹ with a yield of 0.41 g g⁻¹ glycerol and a productivity of 0.94 g l⁻¹ h⁻¹.     

Influence of ammonium and nitrate nitrogen on nitrogenase activity of pea plants as affected by light intensity and sugar addition

Summary Addition of ammonium chloride or potassium nitrate to nodulated pea plants resulted in a decrease in acetylene-reducing activity. Both nodule growth and specific activity of the nodules were diminished. Acetylene-reducing activity of isolated bacteroids, treated with EDTA-toluene and supplied with ATP and dithionite, had not decreased after a 3-day treatment of the plants with NH₄Cl or KNO₃. The effect of combined nitrogen could be counteracted by raising the light intensity or by the addition of sucrose to the growth medium. The latter treatment reduced the nitrogen uptake by the plants. It is concluded that combined nitrogen affects symbiotic nitrogen fixation via the carbohydrate supply to the bacteroids.     

The production of soluble pyrroloquinoline quinone glucose dehydrogenase by Klebsiella pneumoniae, the alternative host of PQQ enzymes

Klebsiella pneumoniae, which produces PQQ and is available for use with a conventional expression vector system, was selected as the host strain for soluble PQQ glucose dehydrogenase (PQQGDH-B) production. The recombinant K. pneumoniaeexpressed PQQGDH-B in its holo-form at about 18000 U l^–1, equal to that achieved in recombinant Escherichia coli. The signal sequence of recombinant PQQGDH-B produced by K. pneumoniaewas correctly processed. K. pneumoniaecan become an alternative host microorganism not only for PQQGDH-B production but also for recombinant PQQ enzymes production.