Azolla filiculoides Nitrogenase Activity Decrease Induced by Inoculation with Chlamydomonas sp.

Experiments were conducted to determine the influence of Chlamydomonas sp. on nitrogen fixation (C₂H₂ → C₂H₄) in Azolla filiculoides and on the nitrogen fixation and growth of free-living Anabaena azollae 2B organisms. Inoculation of azolla medium with Chlamydomonas sp. was associated with decreased nitrogenase activity in A. filiculoides and with increases in the density of a fungal population identified as Acremonium sp. Subsequent inoculation of azolla medium with this fungus was also accompanied by a significant decrease in nitrogenase activity of A. filiculoides. However, the extent of depression of nitrogenase activity was significantly higher when azolla medium was inoculated with Chlamydomonas sp. than when it was inoculated with Acremonium sp. Inoculation of nitrogen-free Stanier medium with either Acremonium sp. or Chlamydomonas sp. did not adversely affect the growth or nitrogenase activity of free-living A. azollae. Decreased nitrogenase activity in A. filiculoides is apparently related to the adverse influence of the green alga and the fungus on the macrosymbiont. The mechanisms that might be involved are discussed.     

Regulation of nitrogen fixation in Rhizobium sp.

Regulation of nitrogen fixation by ammonium and glutamate was examined in Rhizobium sp. 32H1 growing in defined liquid media. Whereas nitrogenase synthesis in Klebsiella pneunoniae is normally completely repressed during growth on NH4+, nitrogenase activity was detected in cultures of Rhizobium sp. grown with excess NH4+. However, an "ammonium effect" on activity was invariably observed in cultures grown on NH4+ as sole nitrogen source; the nitrogenase activity was, depending on conditions, 14 to 36% of that of comparable glutamate-grown cultures. Glutamate inhibited utilization of exogenous NH4+ and, in one of two procedures described, glutamate partially alleviated the ammonium effect on nitrogenase activity. NH4+, apparently produced from N2, was excreted into the culture medium when growth was initiated on glutamate, but not when NH4+ was thesole source of fixed nitrogen for growth. These findings are discussed in relation to nitrogen fixation by Rhizobium bacteroids.     

Hydrogenase in Frankia KB5: expression of and relation to nitrogenase

The localization and expression of the hydrogenase in free-living Frankia KB5 was investigated immunologically and by monitoring activity, focusing on its relationships with nitrogenase and H2. Immunological studies revealed that the large subunit of the hydrogenase in Frankia KB5 was modified post-translationally, and transferred into the membrane after processing. The large subunit was constitutively expressed and no correlation was found between hydrogenase activity and synthesis. Although H2 was not needed for induction of hydrogenase synthesis, exogenously added H2 triggered hydrogen uptake in medium containing nitrogen, i.e., in the hyphae. A correlation between nitrogenase activity and hydrogen uptake was found in cultures grown in media without nitrogen, but interestingly the two enzymes showed no co-regulation.     

镉对满江红（Azolla imbricata）-鱼腥藻（Anabaena azollae）共生体氮代谢的影响

在实验室条件下,研究了不同浓度(0、0.01、0.05、0.1、0.5mg/L)的Cd对满江红-鱼腥藻共生体异型胞频率,固氮酶、谷氨酰氨合成酶活性以及铵态氮、游离氨基酸、可溶性蛋白、总氮含量的影响.结果表明,在整个实验期间,0.01mg/L Cd处理对上述指标均没产生显著影响,说明满江红-鱼腥藻共生体对Cd具有较强的耐性.当培养液中Cd浓度≥0.05mg/L时,随溶液中Cd浓度的增加和处理时间的推移,异型胞频率、固氮酶活性、谷氨酰氨合成酶活性、可溶性蛋白含量和总氮含量逐渐下降,而铵态氮含量在处理初期显著降低,随后迅速增加,游离氨基酸含量则逐渐增加.研究结果表明高浓度的Cd处理导致满江红-鱼腥藻共生体氮代谢的紊乱,最终造成氮素积累量的下降.     

The Effect of Some External Factors on Nitrogenase Activity in the Free-Living and Endophytic Nostoc of the Liverwort Blasia pusilla

The effects of pH, light intensity, temperature, oxygen and dehydration on nitrogenase activity in the free-living and endophytic Nostoc sp. of Blasia are described. The endophyte exhibits greater nitrogenase activity at lower pH's than the free-living alga. Maximal activity in the free-living alga is attained at much lower light intensities than those required by the endophyte. Both algae have low activities below 10°C, the free-living alga showing high activity above 12°C and the endophyte above 17°C. Increasing pO₂ levels cause a decrease in activity in both algae. The free-living alga is more tolerant to dehydration than the endophyte, although both algae are protected by mucilage. The results are discussed and possible benefits resulting from the symbiosis, with respect to nitrogen fixation rates, considered.     

Immobilized cyanobacteria as a biofertilizer for rice crops; Intl. Conference on Applied Algology, Knysna, South Africa, April 1996.

N₂-fixing cyanobacteria (Anabaena azollae, symbiont strains) were immobilized in polyurethane foam and ammonia production by the cyanobacteria was investigated in the laboratory and rice field. The cyanobacterial symbiont, A. azollae - MPK-SK-AM-24 showed the highest growth rate and biomass production amongst the 5 isolates examined while A. azollae-AS-DS showed the highest nitrogenase activity followed by A. variabilis - SA₀ (wild type, non-symbiotic). Treatment of the foam-immobilized cyanobacteria with the systemic fungicide Bavistin stimulated nitrogenase activity while inhibiting glutamine synthetase (GS) activity. Free-living A. azollae-MPK-SK-AF-38, A. azollae - MPK-SK-AM-24 and A. azollae-MPK-SK-AM-27 excreted the highest amounts of ammonia into the growth medium; under foam - immobilized conditions the ammonia production increased further. Treatment of the foam - immobilized cyanobacteria with the fungicides Bavistin and Vitavax resulted in ammonia production at significantly higher rates. Rice seedlings (var. ADT 36) grown in the laboratory in conjunction with foam - immobilized A. azollae showed increased growth. A field experiment with paddy rice and foam - immobilized A. azollae strains indicated that the cyanobacteria excreted significant amounts of ammonia into the flood water in the rice fields resulting in increased chlorophyll content of the plants and increased the rice grain and straw yields. A combination of fertilizer nitrogen and inoculation with foam - immobilized cyanobacteria also significantly increased the rice grain and straw yield. Additionally, both A. azollae and A. variabilis were immobilized in sugarcane waste (bagasse), added to rice paddy and resulted in increased rice grain yield. This revised version was published online in September 2006 with corrections to the Cover Date.     

The effect of cyanobacteria and azolla on the performance of rice under different levels of fertilizer nitrogen

Cyanobacteria and/or azolla were inoculated, with urea at 0, 72 or 144 kg N/ha, in plots in which azolla-free Indica rice var. IR 28 was grown. Productive tillers, yield and nitrogen contents of grain and straw positively responded to inoculation with cyanobacteria or azolla, even with fertilizer-N up to 144 kg N/ha. Inoculation improved colonization by cyanobacteria. Azolla were superior to the asymbiotic cyanobacteria in enhancing rice performance. Urea at a rate of 72 kg N/ha was found to support the best colonizations when applied with cyanobacteria or azolla or, to give maximum rice yields, both inoculants.     

An Autoradiographic Study of the Azolla-Anabaena azollae Relationship

The symbiotic relationships between Azolla and Anabaena azollae were studied by means of autoradiography after the Azolla was administered by 3H-thymidine, 3H-uridine, 3H-leucine and 3H-glucose. The experimental results showed that the four labeled compounds mentioned above were transfered from Azolla to Anabaena azollae through cavity hairs. This indicated that there was a transfer way of substances from fern to algae. It is suggested that the symbiotic relationship between Azolla and Anabaena azollae is more complicated than we have known up to now. The fern not only get the NH3 which was formed by symbiont-blue alga, but also supplied some nitrogen-containing substances, such as amino acids (or proteins), ribonucleotides for symbiotic algae. Although the symbiont still retained photosynthetic ability, the ability of nitrogen fixation might be developed and the photosynthetic autotrophic ability might be dropped gradually in the long symbiotic life and the Anabaena azolla needed take a portion of substances from the Azolla as replenishment.     

水稻根际兼性厌氧催娩克氏杆菌和阴沟肠杆菌的固氮与氢代谢

兼性厌氧细菌Enterobacter cloacae菌株E-26和Klebsiella oxytoca菌株NG-13的氢酶与固氮酶同时形成。固氮的最佳碳源为蔗糖、葡萄糖和丙酮酸,此外延胡索酸和苹果酸也能支持固氮。支持固氮的碳源也支持放氢,两者动力学基本一致。40％乙炔预处理后,吸氢活性下跌,放氢量未增加;NH_4~ 抑制固氮酶,但未导致放氢量降低;可能E-26菌株的放氢主要依赖于氢酶。菌株E-26和NG-13的吸氢反应,既能以O_2为电子受体,也能以延胡索酸、硝酸、MB为电子受体。但仅延胡索酸为电子受体时,E-26菌的固氮活性被分子H_2促进,它的氢吸收利用与固氮相偶联;而在CO_2和NH_4~ 代谢与H_2利用之间并无明显相关性,吸氢活性不被CO_2和NH_4~ 促进。     

Effect of Rhizobium sp. BARIRGm901 inoculation on nodulation,nitrogen fixation and yield of soybean (Glycine max) genotypes in gray terrace soil

Soybean plants require high amounts of nitrogen, which are mainly obtained from biological nitrogen fixation. A field experiment was conducted by soybean (Glycine max) genotypes, growing two varieties (Shohag and BARI Soybean6) and two advanced lines (MTD10 and BGM02026) of soybean with or without Rhizobium sp. BARIRGm901 inoculation. Soybean plants of all genotypes inoculated with Rhizobium sp. BARIRGm901 produced greater nodule numbers, nodule weight, shoot and root biomass, and plant height than non-inoculated plants. Similarly, inoculated plants showed enhanced activity of nitrogenase (NA) enzyme, contributing to higher nitrogen fixation and assimilation, compared to non-inoculated soybean plants in both years. Plants inoculated with Rhizobium sp. BARIRGm901 also showed higher pod, stover, and seed yield than non-inoculated plants. Therefore, Rhizobium sp. BARIRGm901 established an effective symbiotic relationship with a range of soybean genotypes and thus increased the nodulation, growth, and yield of soybean grown in gray terrace soils in Bangladesh.     

葡萄糖和氢对Gunnera／Nostoc固氮共生体固氮活力的影响

Ｇｕｎｎｅｒａ／Ｎｏｓｔｏｃ固氮共生体固氮相对效率（ＲＥ）可在０．２６～０．８０之间变动,而不是一个常数。外加１．５％葡萄糖液可使其固氮活力提高约１００％,同时也使组织的呼吸速率提高了近１６０％。加外源Ｈ２可使其固氮活力提高近１００％,但却使组织的呼吸速率降低了近５０％。正常生长条件下的组织净放Ｈ２量较低．而外源２％葡萄糖液可使组织净放Ｈ２量提高近２倍。外加５ｍｍｏｌ／Ｌ的ＮＨ１Ｃｌ溶液可使其固氮活力下降约７０％。故认为Ｇｕｎｎｅｒａ／Ｎｏｓｔｏｃ共生体固氮活力受碳水化合物供应状况及比代谢两者构成的“还原力库”或“电子库”的调节,在此“还原力库”中,Ｈ２代谢起到了一个“中间调节者”的作用。     

Probing the Sinorhizobium meliloti-alfalfa symbiosis using temperature-sensitive and impaired-function citrate synthase mutants

To study the role of the decarboxylating leg of the bacterial TCA cycle in symbiotic nitrogen fixation, we used DNA shuffling and localized random polymerase chain reaction mutagenesis to construct a series of temperature-sensitive and impaired-function mutants in the Sinorhizobium meliloti Rm104A14 citrate synthase (gltA) gene. Reducing citrate synthase (CS) activity by mutation led to a corresponding decrease in the free-living growth rate; however, alfalfa plants formed fully effective nodules when infected with mutants having CS activities as low as 7% of the wild-type strain. Mutants with approximately 3% of normal CS activity formed nodules with lower nitrogenase activity and a mutant with less than 0.5% of normal CS activity formed Fix- nodules. Two temperature-sensitive (ts) mutants grew at a permissive temperature (25 degrees C) with 3% of wild-type CS activities but were unable to grow on minimal medium at 30 degrees C. Alfalfa plants that were inoculated with the ts mutants and grown with a root temperature of 20 degrees C formed functional nodules with nitrogenase activities approximately 20% of the wild type. When the roots of plants infected with the ts mutants were transferred to 30 degrees C, the nodules lost the ability to fix nitrogen over several days. Microscopic examination of these nodules revealed the loss of bacteroids and senescence, indicating that CS activity was essential for nodule maintenance.     

Nutritional Requirement for the Expression of Nitrogenase Activity by Rhizobium sp. in Agar Culture

The effect of various carbon sources, nitrogen sources, vitamins and trace elements on the ability of three strains (32H1, CB627, CB744) of a slow-growing Rhizobium sp. to develop nitrogenase activity in agar culture was studied. Strains 32H1 and CB627 developed nitrogenase but showed differences with respect to the nature and concentrations of carbon sources required for optimum activity. Strain 32H1 had less specific requirements than CB627 in this respect and could sustain high nitrogenase activity over a wider range of phosphate concentration (5 to 60 mmol/1) in the medium than CB627. There were only minor differences between these two strains with respect to the nitrogen source [glutamine, asparagine, histidine or (NH₄SO₄] required in the medium for nitrogenase induction, and nitrogenase activity in both strains was unaffected by changes in the concentration of vitamins or trace elements supplied. Strain CB744 did not develop nitrogenase activity under any of the conditions tested. Adenosine 3', 5'-cyclic monophosphate (1 mmol/1) was found to accelerate derepression of nitrogenase synthesis in agar cultures of strains 32H1 and CB627.     

Nitrogen fixation by Rhizobium in pure cultures.

Strains of Rhizobium trifolii and Rhizobium meliloti were tested for their asymbiotic nitrogen fixation ability. From among ten tested strains two R. trifolii and one R. meliloti expressed nitrogenase activity within the range of 1.3--9.3 nM C2H4/h/mg protein. Asymbiotic nitrogen fixation was affected by the composition of the medium.     

Variation in Nitrogen Fixing Ability among Natural Isolates of Azospirillum

Abstract A total of 285 strains of Azospirillum were isolated from soils from seven geographic regions in New South Wales, Australia, using an immunomagnetic separation procedure which does not select strains according to their nitrogen-fixing ability. By combining amplification and restriction analysis of 16S rDNA (ARDRA) patterns with serological, morphological and biochemical results, we found that almost all isolates were A. brasilense and A. lipoferum. There was wide variation in the nitrogenase (acetylene reduction) activity of isolates grown in nitrogen-free, semisolid medium, with differences in average activities between regions. Isolates with zero or negligible nitrogenase activity were found in samples from only two regions, one of which had two out of 26 strains with no activity. Representative isolates, having the highest, the lowest, and intermediate nitrogen fixation rates for each site, were used to inoculate the roots of wheat plants in a model system. Most of the isolates, in association with wheat roots, reduced between 1 and 5 nmol C₂H₄· mg dry root⁻¹· day⁻¹, but certain strains gave considerably higher activities. The rank order of nitrogen fixation activity on wheat roots did not correlate well with that of nitrogen fixation in pure culture; some strains that fixed nitrogen vigorously in pure culture had low rates of fixation on roots, and vice versa. This inconsistency could not be explained by variations in the root colonizing ability of different strains. However, isolates of A. lipoferum had a higher average nitrogenase activity than A. brasilense, both in Nfb medium and in association with wheat roots. The majority of the most active nitrogen fixers were A. lipoferum. When wheat plants were inoculated with mixtures of two or four strains, nitrogen fixation rates were generally between the rates for the component strains when inoculated individually. There was no benefit from using mixtures of different strains. Received: 23 July 1997; Accepted: 4 December 1997     

Influence of some environmental factors on nitrogen fixation in the rhizosphere of rice

Summary Nitrogen fixers make up a large percentage of the total microflora in the rhizosphere of lowland rice. There are more aerobic nitrogen fixers than there are anaerobic ones. When soil crumbs from the root zone were placed on a nitrogen free agar medium and inoculated at 0, 5, 10, and 21 percent oxygen concentration, colonies of aerobic nitrogen fixers reached their greatest diameter at 5 and 10 percent oxygen. In acetylene reduction assays rice plants grown in paddy fields and in solution culture were tested for the nitrogenase activities of their roots at different oxygen tensions. Nitrogenase activity was highest at 3 percent oxygen, lower at 0 percent, and far lower at 21 percent. When rice was grown in solution culture the redox potential of the nutrient solution strongly influenced nitrogenase activity. With declining redox potential, nitrogenase activity increased to a maximum value but dropped sharply as redox potential further decreased. Ten ppm of combined nitrogen as urea depressed nitrogenase activity on excised roots. Combined nitrogen applied to one part of the root system affected, to some extent, nitrogen fixation on other roots kept in a solution without nitrogen. Nitrogenase activity in a fertility trial with lowland rice, examined at several dates, showed no inhibitory effect of fertilizer nitrogen, however, presumably because the nitrogen concentration in the soil solution rapidly decreased. Instead, an overall stimulating effect of nitrogen dressing was noticeable. Diurnal fluctuations of nitrogenase activity in the rhizosphere, with a peak in the afternoon and low fixation rates after low solar radiation, suggest a photosynthetic effect on nitrogen fixation. re]19751208     

Mutant Strain of Bradyrhizobium japonicum with Increased Symbiotic N(2) Fixation Rates and Altered Mo Metabolism Properties

Mutant strains of Bradyrhizobium japonicum that required higher levels of molybdate than the wild-type strain for growth on NO(3)-containing medium were obtained after transposon Tn5 mutagenesis of the wild-type strain. The mutant strains expressed more than fivefold-greater nitrate reductase activities in the range of 0.1 to 1.0 mM added molybdate compared with activities expressed upon incubation in non-Mo-supplemented medium, whereas the nitrate reductase activity of the wild-type strain (JH) was not markedly influenced by Mo supplementation. In free-living culture, mutant strains JH310 and JH359 expressed substantial nitrogenase activity, even in medium treated to remove molybdate, and nitrogenase activity was influenced little by Mo supplementation, whereas the wild-type strain required 100 nM added Mo for highest nitrogenase activity. Double-reciprocal plots of Mo uptake rates versus Mo concentration showed that both bacteroids and free-living cells of mutant strain JH359 had about the same affinity for Mo as did the parent strain. Bacteroids of both the mutants and the wild type also exhibited similar Mo accumulation rates over a 9-min period under very-low-Mo (4 nM) conditions. Nitrogenase activities for strain JH359 and for the wild-type strain in free-living culture were both strongly inhibited by tungsten; thus, the nitrogenase activities of both strains are probably the result of a "conventional" Mo-containing nitrogenase. Soybeans inoculated with strain JH359 and grown under either Mo-supplemented or Mo-deficient conditions had greater specific acetylene reduction rates and significantly greater plant fresh weight than those inoculated with the wild-type strain. Under Mo-deficient conditions, the acetylene reduction rates and plant fresh weights were up to 35 and 58% greater, respectively, for mutant-nodulated plants compared with wild-type-strain-nodulated plants.     

Regulation of nitrogen fixation in Rhizobium spp. Isolation of mutants of Rhizobium trifolii which induce nitrogenase activity

This communication describes the isolation and characterization of mutants of Rhizobium trifolii which can induce nitrogenase activity in defined liquid medium. Two procedures were used for the isolation of these mutants from R. trifolii strain DT-6: (1) following chemical mutagenesis, slow growing mutants were selected which were unable to utilize NH+4 as sole source of nitrogen; (2) as spontaneous mutants resistant to the glutamate analogue L-methionine-DL-sulfoximine. Mutants (DT-71, DT-125) isolated by these procedures induced nitrogenase activity in the free-living state, whereas the parent strain lacked this property. Induction of nitrogenase activity in these mutants occurred during the late exponential phase of growth when the rate of protein synthesis was decreasing. The addition of NH+4 to a medium containing glutamate as the nitrogen-source resulted in a 50--70% reduction (repression?) of nitrogenase activity; in contrast, the rate of protein synthesis or the rate of respiration was not influenced by exogenous NH+4. Biochemical analysis showed that these mutants (strains DT-71 and DT-125) have defects in both nitrogen and carbon metabolism. The levels of glutamate synthase (both NADP+ -and NAD+ -dependent activities) and glutamate dehydrogenase (NAD+-dependent activity) were markedly lower. In addition, the mutants were found to have no detectable ribitol dehydrogenase or beta-galactosidase activity. These findings are discussed in relation to a mechanism of regulation of symbiotic nitrogen fixation.