Enhanced nodulation of soybean by Bradyrhizobium in the presence ofPseudomonas fluorescens

Experiments were undertaken to determine the effect ofPseudomonas fluorescens on nodulation of soybean by two strains ofBradyrhizobium japonicum, USDA I-110 and 61A76.Pseudomonas fluorescens can enhance the nodulation ability ofB. japonicum. Preincubation ofB. japonicum withP. fluorescens before inoculation further increased the level of nodulation.     

Competitive growth of slow growingRhizobium japonicum against fast growingEnterobacter andPseudomonas species at low concentrations of succinate and other substrates in dialysis culture

A cultivation system with simultaneous growth of six bacterial cultures in separate bags in dialysis culture was developed. In a medium with no added carbon source (one half concentrated Hoagland solution, water deionized and distilled), cell number ofRhizobium japonicum increased during a 7 day period by a factor of 35, whereas the number ofEnterobacter aerogenes cells decreased to one half. With a concentration of 100 nM succinate as an additional carbon source in the inflow,Rhizobium japonicum 61-A-101 cell number increased by a factor of 50 during an 8 day period, whereas cell number ofEnterobacter cloacae NCTC 10005 only doubled and ofEnterobacter aerogenes NCTC 10006 decreased. At 10 mM concentration of succinate in the inflow, doubling time the twoEnterobacter strains was about 12 h, compared to about 24 h for theRhizobium japonicum strain. Varying the succinate concentration from 10 mM to 100 nM in the inflow,Rhizobium japonicum 61-A-101 surpassed theEnterobacter aerogenes strains in the growth rate between 1 mM and 100 M succinate in the inflowing medium. Three otherRhizobium japonicum strains (fix⁺ and fix^-) did grow with a similar rate as strain 61-A-101 at very low concentrations of substrate. Growth rates for the strains were confirmed by protein data per culture. Growing in competition with twoPseudomonas strains,Rhizobium japonicum RH 31 Marburg (fix^-) did overgrow alsoPseudomonas fluorescens, was however outgrown byPseudomonas putida. In utilizing low concentrations of a¹⁴C labelled organic acid (malonate), three strains ofRhizobium japonicum left 2–4 times smaller amounts of¹⁴C in the medium than two species ofPseudomonas and two species ofArthrobacter.On sabbatical leave at ANU     

Purification and some properties of a starch debranching enzyme ofHendersonula toruloidea

An extracellular, debranching isoamylase fromHendersonula toruloidea ATCC 64930, grown on starch, was purified 12-fold to an electrophoretically homogeneous state. The purified enzyme (estimated mol wt 83000) was optimally active at pH 6.0 and 50°C and remained active when held at 70°C (30 min) and at pH 6 to 8 for 24 h. Na⁺, Fe²⁺ and Ba²⁺ (at 5mm) enhanced enzyme activity while Hg²⁺, Zn²⁺ and Cu²⁺ (at 5mm) were inhibitory. The enzyme hydrolysed amylopectin (Km, 0.25 mg/ml), forming maltose, maltotriose and maltotetraose and hydrolyzed glycogen (Km, 0.29 mg/ml) and soluble starch (Km, 0.42 mg/ml) forming maltotriose and maltotetraose. Pullulan was not hydrolyzed.     

Diverse effects of formate on the assimilatory metabolism of nitrate and nitrite inRhizobium

Two strains ofRhizobium, cowpeaRhizobium 32H1 andRhizobium japonicum CB 1809, showed a marked stimulation in growth on addition of formate to the minimal medium containing nitrate as the sole source of nitrogen. The amount of accumulated nitrite and specific nitrate reductase activity was much higher in cultures supplemented with formate than in the control medium. In contrast, growth, consumption of nitrite and specific nitrite reductase activity in minimal medium + nitrite was greatly reduced by the addition of formate. A chlorate resistant mutant (Chl-16) was isolated spontaneously which contained a nitrite reductase which was not inhibited by formate. The results suggest that formate serves as an electron donor for nitrate reductase and inhibits nitrite assimilation inRhizobium     

Growth and amino acid contents of<Emphasis Type="Italic">Spirulina platensis</Emphasis> with different nitrogen sources

The growth and amino acid contents of the cyanobacterium,Spirulina platensis strain NIES 46, were investigated using ammonium, nitrate, nitrite, or urea as the sole nitrogen source in a batch culture. Chlorophylla concentration was highest at 2,096 μg/L in the nitrate group after 10 days of cultivation, while the dry weight ofS. platensis was highest at 4.5 g/L in the ammonium group after 30 days of cultivation. The total amino acid content was highest at 174 mg/g dry weight ofS. platensis in the urea group at the end of the cultivation period, yet the amino acid patterns forS. platensis were similar for all the experimental groups. Therefore, it seemed that the growth and amino acid composition ofS. platensis varied depending on the type of nitrogen sources, while the amino acid patterns were not changed. Also, the most efficient harvesting time forS. platensis seemed to be approximately 10 days after cultivation.     

Enhancement of specific nitrogenase activity inAzospirillum brasilense andKlebsiella pneumoniae,inhibition inRhizobium japonicum under air by phenol

Specific nitrogenase activity inAzospirillum brasilense ATCC 29145 in surface cultures under air is enhanced from about 50 nmol C₂H₄·mg protein^-1·h^-1 to 400 nmol C₂H₄ by the addition of 1 mM phenol. 0.5 and 2 mM phenol added increase the rate 5-fold and 4-fold. This enhancement effect is observed only between 2 and 3 days after inoculation, with only a small reduction of the growth of the cells by the phenol added. In surface cultures under 1% O₂, nitrogenase activity is slightly reduced by the addition of 1–0.01 mM phenol. Utilization of succinate is enhanced during the period of maximum enhancement of nitrogenase activity by 60% by addition of 1 mM phenol. The cells did not produce¹⁴CO₂ from [U-¹⁴C] phenol, neither in surface cultures nor in liquid cultures and less than 0.1% of the phenol was incorporated into the cells. A smaller but significant enhancement of nitrogenase activity by about 100% in surface cultures under air was found withKlebsiella pneumoniae K 11 after addition of 1 mM phenol. However, inRhizobium japonicum 61-A-101 all phenol concentrations above 0.01 mM reduced nitrogenase activity. With 1 mM phenol added activity was reduced to less than 10% with no effect on the growth in the same cultivation system. With thisRhizobium japonicum strain significant quantities of phenol (25 mol in 24 h by 2·10¹² cells) were metabolized to¹⁴CO₂, with phenol as sole carbon source. WithAzospirillum brasilense in liquid culture under 1% and 2% O₂ in the gas phase, no enhancement of nitrogenase activity by phenol was noticed.     

Binding and penetration ofRhizobium japonicum to cultured soybean cells

A cultured soybean cell line, SB-1 was used to evaluate the initial interaction between the soybean cells andRhizobium japonicum. Co-culturing ofR. japonicum with SB-1 cells in suspension resulted in strain-specific polar attachment. This attachment can be inhibited by galactose and antibodies raised against seed soybean agglutinin (SBA). A lectin was purified from SB-1 cells which shares properties with SBA in terms of immunological reactivity, sugar binding activity, polypeptide molecular weight and peptide maps. When the SB-1 cells were co-cultured withR. japonicum for three weeks in solid agar medium, histological staining revealed bacterial penetration into certain SB-1 cells. Furthermore, there were focal regions of cells with prominent nuclei representing actively proliferating regions. These observations are analogous to that ofin vivo nodule initiation in soybean roots.     

The Use of <Emphasis Type="Italic">Bradyrhizobium</Emphasis> to Enhance Growth and Yield of Soybean in Calcareous Soil in Uzbekistan

In this work the effect of inoculation with Bradyrhizobium japonicum S2492 on soybean (Glycine max (L) Merr) growth, nodulation and yield in nitrogen-deficient soil of Uzbekistan was studied. The field experiments were carried out in Tashkent Province of Uzbekistan in a randomized complete block design with four replicates of each treatment. The results revealed positive effects on growth, nodule number and yields of soybean after inoculation with B. japonicum S2492. The yield of soybean varieties was 48% higher for inoculated than for uninoculated plants. The effect of the inoculation was specific for variety but not for growth type. The protein and oil contents of seeds also increased after inoculation. It was concluded that B. japonicum S2492 can be considered as a biofertilizer for increasing the productivity of soybean in nitrogen-deficient soils in Uzbekistan.     

Vaccine potential of hemocyanin from Oncomelania hupensis against Schistosoma japonicum

Hemocyanin, a giant oxygen transport protein which is usually found in many arthropods and mollusks was isolated and purified from Oncomelania hupensis. In this study, we showed that Oncomelania hupensis hemocyanin (OhH) shared carbohydrate epitopes with different developmental stages of Schistosoma japonicum (Cercaria, Schistosomulum, Adult worm and Egg) and exhibited serological cross-reaction with these stages of S. japonicum immune sera, which had a potential for use in diagnostic and therapeutic studies of schistosomasis. OhH was used as a vaccine in combination with Freund's adjuvant to evaluate the induction of immune responses and protection against S. japonicum infection in mice. Mice immunized with OhH induced a Th1 type of immune responses. Strong protection against S. japonicum were observed in adult worm and egg burdens after 42 days post-challenge, which showed a significant worm reduction of 52.5% and egg reduction of 69.2% compared to the control groups, respectively. These results indicated that OhH was a potential candidate to compose an anti-schistosome vaccine.     

Neue Chrysophyceen aus dem nordmährischen Quellengebiet

New taxa ofChrysophyceae from small heleocrene and limnocrene springs are described and pictured. The delicate flagellates were observed and drawn in living stage immediately after collection. Some of them show peculiar morphology and striking structure of organelles. The following new taxa are described in this paper:Chromulina nasuta, Chromulina pavlikii, Chromulina taeniata, Chromulina oligochrysis, Chromulina pyrenoidosa, Monochrysis stigmatica, Ochromonas oligochrysis, Ochromonas taeniata, Pseudokephyrion hypermaculatum, Pseudokephyrion hyalinum var.tubiforme, Chrysococcus ellipsoideus, Epipyxis borealis var.monoplastida.

     

Nodulation and nitrogen fixation by fast- and slow-growing rhizobia strains of soybean on several temperate and tropical legumes

Three slow-growingBradyrhizobium japonicum (G₃, USDA-110 and KUL-150) of diverse origins and two fast-growing strains ofRhizobium fredii (USDA-192 and USDA-193) were tested with a cropped soybean (Glycine max L. Merrill) cultivar, two cowpeas (Vigna unguiculata), one mung-bean (Phaseolus radiata), one winged-bean (Psophocarpus tetragonolobus) and one field bean (Phaseolus vulgaris) varieties.TheR. fredii strains nodulated and fixed Nitrogen as effectively as the strains ofB. japonicum in a modern european soybean cultivar, namely Fiskeby V. The other western bred soybeans tested were not nodulated by theseR. fredii strains. All of the soybean rhizobia produced nodules in both cowpeas and in mung-bean; theR. fredii strains showed effective N₂-fixation in the cowpeas, particularly USDA-193, yielding shoot dry weights greater than those from theB. japonicum. The symbiotic performance of theR. fredii strains with soybean and other legumes indicated that they should be placed in an intermediate group between the slow-growingB. japonicum and cowpearhizobium sp.The hydrogen uptake activites suggested a possible host effect on the expression of such genes in one out of theB. japonicum strains tested. Furthermore, the slow-growing rhizobia showed significantly higher nitrate-reduction than theR. fredii in the nodules.     

Photonastic and thermonastic opening of capitulum in dandelion,Taraxacum officinale andTaraxacum japonicum

The capitula ofTaraxacum officinale andT. japonicum open in response to temperature rise at lower temperatures (thermonasty), and in response to light at higher temperatures (photonasty), as was the case inT. albidum. The capitula ofT. officinale could respond to the same temperature rise more sensitively than those ofT. albidum orT. japonicum. The minimum temperature for photonastic opening is as low as 13 C forT. officinale, while that forT. albidum andT. japonicum is about 18 C. That is why the capitula ofT. officinale opened earlier than those ofT. albidum andT. japonicum in the morning in April under natural conditions. The capitulum continued to be open for about 13–14 hr inT. officinale and about 8–11 hr inT. japonicum and inT. albidum both under natural conditions in April and even under constant light-temperature conditions, suggesting that the time of capitula-closing in these three species is not controlled by changes in environmental factors (light and/or temperature).     

Identification of enzymes involved in indole-3-acetic acid degradation

Strains of Bradyrhizobium japonicum with the ability to catabolize indole-3-acetic acid (IAA) and strains of B. japonicum, Rhizobium loti, and Rhizobium galegae, unable to catabolize IAA, were analyzed for enzymes involved in the pathway for IAA degradation. Two enzymes having isatin as substrate were detected. An isatin amidohydrolase catalyzing the hydrolysis of isatin into isatinic acid was found in some B. japonicum strains and in two Rhizobium species, R loti and R. galegae. The enzyme was inducible (4–5-fold) by its substrate, isatin, and the partially purified enzyme from R. loti showed an apparent K_M of 11 M for isatin. A NADPH-dependent isatin reductase was measured in extracts from a strain of B. japonicum lacking the isatin amidohydrolase. The structure of the reaction product, dioxindole was verified by NMR spectroscopy. Isatin reductase activity was also detected in extracts of dry pea seeds, and present in at least two isoforms. A low K_M of 10 M for isatin was found with a partially purified preparation of the pea enzyme. The presence of such an enzyme activity in pea indicates dioxindole and isatin as possible intermediates in IAA degradation in pea.     

Interference betweenSalsola kali L. seedlings: Implications for plant succession

Studies were conducted to determine the cause of the decline of the early successional species,Salsola kali L., in the years following its colonization of disturbed soils in arid regions of the western United States. DriedS. kali plant material significantly stimulated the growth ofS. kali but had no effect on the growth or levels of mycorrhizal infection ofAgropyron smithii, a later successional grass. In contrast, root leachates fromS. kali caused a depression in the growth ofS. kali, but had no effect on the growth or mycorrhizal infection ofA. smithii. In the reciprical experiment, root leachates fromA. smithii had no effect on mycorrhizal fungi,S. kali, orA. smithii. This study contradicts earlier studies of the allelopathic potential ofS. kali litter and supports the importance of direct interference betweenS. kali seedling as the cause of the die-off ofS. kali during secondary succession.     

Differential response of fourTrichogramma species to low temperatures for short term storage

Differential response was noticed when 4 species ofTrichogramma egg parasitoids were stored at 2°, 5° and 10°C for 7 to 49 days. Pupal stage was found to be most appropriate for storage. Emergence ofTrichogramma achaeae Nagaraja and Nagarkatti andTrichogrammatoidea eldanae Viggiani was greater in comparison toTrichogramma chilonis Ishii andTrichogramma japonicum Ashmead at all 3 temperature regimes. Fecundity and longevity declined drastically after storage of 14 days at 2° and 5°C and 21 days at 10°C, when removed to room temperature. 10°C was found to be the best temperature for storage up to 49 days. Contribution No. 51004 of Biological Control Centre (NCIPM), Bangalore.     

Pyruvate decarboxylases from the petite-negative yeast<Emphasis Type="Italic"> Saccharomyces kluyveri</Emphasis>

Saccharomyces kluyveri is a petite-negative yeast, which is less prone to form ethanol under aerobic conditions than is S. cerevisiae. The first reaction on the route from pyruvate to ethanol is catalysed by pyruvate decarboxylase, and the differences observed between S. kluyveri and S. cerevisiae with respect to ethanol formation under aerobic conditions could be caused by differences in the regulation of this enzyme activity. We have identified and cloned three genes encoding functional pyruvate decarboxylase enzymes ( PDC genes) from the type strain of S. kluyveri (Sk-PDC11, Sk-PDC12 and Sk-PDC13). The regulation of pyruvate decarboxylase in S. kluyveri was studied by measuring the total level of Sk-PDC mRNA and the overall enzyme activity under various growth conditions. It was found that the level of Sk-PDC mRNA was enhanced by glucose and oxygen limitation, and that the level of enzyme activity was controlled by variations in the amount of mRNA. The mRNA level and the pyruvate decarboxylase activity responded to anaerobiosis and growth on different carbon sources in essentially the same fashion as in S. cerevisiae. This indicates that the difference in ethanol formation between these two yeasts is not due to differences in the regulation of pyruvate decarboxylase(s), but rather to differences in the regulation of the TCA cycle and the respiratory machinery. However, the PDC genes of Saccharomyces/Kluyveromyces yeasts differ in their genetic organization and phylogenetic origin. While S. cerevisiae and S. kluyveri each have three PDC genes, these have apparently arisen by independent duplications and specializations in each of the two yeast lineages.Communicated by C. P. Hollenberg     

Autotrophic growth of strains ofRhizobium and properties of isolated hydrogenase

Four strains ofRhizobium (R. trifolii RCL10,R. japonicum S19 and SB16, andRhizobium sp. NEA4) were demonstrated to grow lithoautotrophically with molecular hydrogen as sole electron donor and with ammonium or with N₂ as N source. All of them showed ribulose-1,5-bisphosphate carboxylase activity and hydrogenase (H₂-uptake) activity with methylene blue and oxygen as electron acceptors. ForR. japonicum SB 16, a doubling time under autotrophic conditions of 30 h and a specific hydrogenase activity (methylene blue reduction) in crude extracts of 1.4 U/mg protein were calculated.Rhizobium hydrogenase is a membrane-bound enzyme. It is mainly detectable in particulate cell fractions, it cross-reacts with the antibodies of the membrane-bound hydrogenase ofAlcaligenes eutrophus, and is unable to reduce NAD. The isolated hydrogenase is a relatively oxygen-sensitive enzyme with a half-life of three days when stored at 4°C under air.     

Induction and selection of formaldehyde-based resistance inPseudomonas aeruginosa

Summary A formaldehyde resistant (R) phenotype ofPseudomonas aeruginosa was isolated from a formaldehydesensitive (S) parent by sequential treatment with 1,3,5-tris-(ethyl)hexahydro-s-triazine (ET). The resistance of the (R) strain to treatment with ET was approximately 3-fold higher than the parental (S) strain. Two modes of resistance to ET, and simultaneous resistance to formaldehyde, are demonstrated: (1) transient or induced resistance is expressed during shor-term exposure to ET, and this resistance is gradually lost during subsequent growth in the absence of ET, and (2) resistance that results from a stable phenotypic change in the (S) strain following sequential treatment with ET ((R) strain phenotype). The observed activities of three forms of the formaldehyde oxidizing enzyme, formaldehyde dehydrogenase, are strongly correlated with the relative response of the (S) and (R) strains to treatment with ET. The observed resistance of the (R) strain appears to be due to high levels of an NAD⁺-linked, glutathione-dependent form of formaldehyde dehydrogenase as well as a dye-linked formaldehyde dehydrogenase. The transient or induced response of the (R) strain involves an increase in activity of the dye-linked formaldehyde dehydrogenase. The induced response of the (S) strain and an ATCC strain ofP. aeruginosa, however, is correlated with the two forms of the NAD⁺-linked enzyme (glutathione-dependent (EC 1.2.1.1) and independent (EC 1.2.1.46)) with no contribution from the dye-linked enzyme.     

Toxicity of cadmium to twoStreptomyces species as affected by clay minerals

Summary The effect of cadmium on the growth ofStreptomyces rimosus andS. bottropensis (both isolated from soil) was investigated. The modifying effect of the presence of the clay minerals kaolinite, bentonite and vermiculte on Cd toxicity was also included. After four days no growth was observed at 100 ppm CdCl₂ ofS. bottropensis and at 150 ppm in case ofS. rimosus. After six days some growth ofS. rimosus occurred at 150 ppm CdCl₂ and ofS. bottropensis at 100 ppm. Addition of the three clay minerals decreased the Cd toxicity considerably.     

Development of a serial bioreactor system for direct ethanol production from starch using<Emphasis Type="Italic">Aspergillus niger</Emphasis> and<Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis>

Aspergillus niger hyphae were found to grow with unliquefied potato starch under aerobic conditions, but did not grow under anaerobic conditions. The raw culture ofA. niger catalyzed saccharification of potato starch to glucose, producing approximately 12 g glucose/L/day/ The extracellular enzyme activity was decreased in proportion to incubation time, and approximately 64% of initial activity was maintained after 3 days. At 50°C,A. niger hyphae growth stopped, while the extracellular enzyme activity peaked. On the basis of theA. niger growth property and enzyme activity, we designed a serial bioreactor system composed of four different reactors. Fungal hyphae were cultivated in reactor I at 30°C, uniquefied starch was saccharified to glycose by a fungal hyphae culture in reactors II and III at 50°C, and glucose was fermented to ethanol bySaccharomyces cerevisiae in reactor IV. The total glucose produced by fungal hyphae in reactor I and saccharification in reactor II was about 42 g/L/day. Ethanol production in reactor IV was approximately 22 g/L/day, which corresponds to about 79% of the theoretical maximum produced from 55 g starch/L/day.