Do single nodules of Casuarinaceae contain more than oneFrankia strain?

Summary Studies using inoculum suspensions prepared from single nodules of Casuarinaceae suggest that more than oneFrankia strain may be found in some nodules. Evidence is also presented to support the concept of intergeneric specificity in host-Frankia relations in the family Casuarinaceae.     

Host-Frankia specificity within the Casuarinaceae

Summary Fifteen species from three genera of the Casuarinaceae were inoculated with suspensions ofFrankia prepared from single nodule-lobes collected from different species and genera within the Casuarinaceae. Host-endophyte specificity was expressed mainly at the generic level. There was marked cross-inoculation within Casuarina and little nodulation ofCasuarina species from Allocasuarina sources with the exception of 3 sources ofFrankia fromA. torulosa which showed a high tendency to nodulateCasuarina species. Few sources from Casuarina nodulated species of Allocasuarina and while cross-inoculation within Allocasuarina was frequent it was less marked than within Casuarina. SomeFrankia inocula had wider host ranges than others, nodulating outside the genus or series of origin. It was not possible to determine if these apparent wider ranges in host spectra reflected genotypic differences betweenFrankia or were associated with the presence of more than oneFrankia strain in some inocula.     

Restriction enzyme digestion patterns ofFrankia plasmids

Summary After the initial screening of more than 200Frankia strains, the plasmid DNA observed in eight Frankiae was analyzed.In situ lysis was performed to obtain an estimate of their copy number and molecular weight. Four plasmid classes were distinguished, 7–9, 18–20, 30–35 and 50–55 kb. Twelve plasmids were thus analysed with restriction enzymes to determine their plasmid restriction patterns.While someFrankia plasmids with comparable molecular weights were found to be heterologous in their restriction enzyme pattern, an 8 kb plasmid found in bothFrankia sp. ArI3, isolated fromAlnus rubra andFrankia sp. CpI1 isolated fromComptonia peregrina showed undistinguishable fingerprints. Furthermore, an 18 kb plasmid found in the same two strains, also showed homologous restriction enzyme patterns. However, the copy numbers of the two ArI3 plasmids were higher than those of the CpI1 plasmids.Similarly, strains ACN1^AG, , isolated fromAlnus crispa all contained a 50 kb plasmid, and the three plasmids were found upon restriction analysis to be undistinguishable.In one strain, ARgX17c isolated fromAlnus rugosa, it was found through restriction enzyme analysis that two plasmids of a similar molecular weight were in fact heterologous.The possible origin of the homologous plasmids and their potential as specificFrankia markers to be used in ecological studies are discussed.     

Variation with soil depth,topographic position and host species in the capacity of soils from an Australian locale to nodulateCasuarina andAllocasuarina seedlings

Sandy alluvial soils in a floodplain supporting a native stand ofCasuarina cunninghamiana Miq. produced about three times as many nodulated seedlings and more than twice as many nodules per nodulated seedling on roots of baitedCasuarina spp. than did clay loam red earth soils from the adjacent valley slope. Moist and well-aerated subsurficial alluvial sands had the greatest nodulation capacity of all the soils sampled. For all topographic positions, soil samples from depths greater than 20 cm promoted 76% more nodulated Casuarina seedlings than samples from the surficial 20 cm.Seedlings of three provenances ofC. cunninghamiana, together with seedlings ofC. glauca Sieb. ex Spreng.,C. cristata F. Muell ex Miq. andC. obesa Miq. developed significantly more nodules per pot and nodules per nodulated seedling in soils from this locale than seedlings of twoCasuarina equisetifolia Forst. provenances. Seedlings of two provenances ofAllocasuarina torulosa (Ait.) L. Johnson had fewer than 1% nodulated seedlings, a significantly lower level by far than that ofCasuarina seedlings.A. torulosa provenances also had significantly fewer nodulated seedlings per pot and nodules per nodulated seedling than all Casuarina hosts excepting one poorly-nodulated provenance ofC. equisetifolia.Nodulated seedlings of allCasuarina species had the capacity to fix atmospheric N₂, as indicated by acetylene-reduction capability. The presence of yellow cladodes and low rates of acetylene reduction per plant forC. cristata Miq. suggest that this association was poorly effective.     

Effects of soil acidity on nodulation ofAlnus glutinosa and viability ofFrankia

Summary Black alder seedlings were grown from seed for 7 weeks in six soils limed to various pH levels and inoculated withFrankia in two inoculation-seeding time combinations (inoculated and seeded concurrently; inoculated then seeded 5 weeks after inoculation). Three mine soils and three non-mine soils were used. Soil pHs in the study ranged from 3.6 to 7.6. In the second inoculation-seeding time combination, a series of soil samples at each of the pH levels below 7.0 were relimed to pH 7.0 immediately prior to seeding. The purpose of the study was to examine the effects of soil acidity on the nodulation of black alder byFrankia and the viability ofFrankia in acid soils. Based on the average number of nodules established per seedling, soil pH was determined to be a significant factor affecting nodulation in the mine soils. The highest levels of nodulation occurred between soil pH 5.5 and 7.2. Below pH 5.5, nodulation was reduced. There was also evidence of decreased viability of the endophyte below pH 4.5.     

Devising an <Emphasis Type="Italic">in vitro</Emphasis> nodulation system for two actinorhizal plants: <Emphasis Type="Italic">Allocasuarina verticillata</Emphasis> (Lam.) L. Johnson and <Emphasis Type="Italic">Casuarina glauca</Emphasis> sieb. ex spreng (Casuarinaceae)

Summary The purpose of this study was to establish an efficient in vitro nodulation device for producing actinorhizal root nodules on Allocasuarina verticillata and Casuarina glauca. Seeds from the two species were germinated aseptically and seedlings with at least two photosynthetic branchlets and a 3–5 cm long root system were transferred into Petri dishes containing a biphasic (solid/liquid) medium. To assess the nodulation capacity, four different culture media were tested. As soon as the root system developed and spread adequately on the surface of the medium, plants were deprived of nitrogen for at least 1 wk and inoculated with the Frankia strain. The time course nodulation for A. verticillata showed that the basal Hoagland medium supplemented with CaCO₃ and KNO₃ was most efficient, with 83% of plantlets forming nodules, while the medium supplemented with CaCO₃ reached 100% nodulation for C. glauca. This procedure can provide a valuable tool for the study of early events of actinorhizal nodulation and spatio-temporal expression of symbiotic genes in transgenic Casuarinaceae.     

Observations on the ultrastructure ofFrankia sp. in root nodules ofDatisca cannabina L.

Summary The fine structures of the microsymbiont inside the root nodules ofDatisca cannabina have been studied by light, by transmission- and by scanning-electron microscopy. The endophyte is prokaryotic and actinomycetal in nature. The hyphae are septate and branched, diameter 0.3–0.5 m. The tips of hyphae are swollen to form electron-dense, clubshaped to filamentous vesicles, ranging in diameter: 0.4–1.4 m. The endophyte penetrates through walls of the cortial cells. The infected zone is kidney shaped and confined to one side of the acentric stele. The orientation of infection is reversed from other actinorhizae exceptCoriaria. The hyphae are near the host cell wall and vesicles are directed towards the central vacuole. Vesicles are aseptate and no collapsing of the vesicle cell wall (void area) has been observed. Vesicle clusters structures are globular with an opening at one side of the cluster. The host cell is multinucleate or contains a lobed nucleus. Groups of mitochondria are located in between the hyphae, suggesting a strong association between the host and the endophyte for energy supply and amino acid production. The consequences of the inability to separate the mitochondria from the vesicle clusters in nodule homogenates in physiological studies have been discussed.Isolated vesicles clusters showed dehydrogenase activity, indicated by the presence of formazan crystals, after incubation with NADH and NBT. Strongest reducing activity was found within the vesicles. The possible role of filamentous vesicles in nitrogen fixation has been discussed.     

Respiration and nitrogenase activity in nodules ofCasuarina cunninghamiana and cultures ofFrankia sp. HFP020203: Effects of temperature and partial pressure of O2

The effects of time after exposure to acetylene and of nodule excision were examined using a flow-through system. After a transient depression in the rate of acetylene reduction that began about 1.5 min after exposure to acetylene, the rate recovered to 98% of the initial maximum value after 40 min. After nodule excision the rate stabilized to 90% of the initial maximum value observed in the intact plant.Excised nodules, measured at 6-min intervals in a closed system, with frequent changes of the gas mixture, were used for the remaining experiments. Acetylene reduction by the nodules increased rapidly as temperature was increased between 6 and 26°C. Between 26 and 36°C there was relatively little effect of temperature on acetylene reduction.Nodules and cultures ofFrankia were compared with respect to the effect of temperature and pO₂ (partial pressure of oxygen) on oxygen uptake. Cultures ofFrankia were grown on a nitrogen-free medium at either 0.3 kPa O₂ (vesicles absent) or 20 kPa O₂ (vesicles present). Oxygen uptake by nodules (vesicles absent) and by vesicle-containing cultures was strongly dependent on pO₂ at values below 20 kPa. This suggests the presence of a barrier to oxygen diffusion. Oxygen uptake was dependent on temperature as well as on pO₂, but the Q₁₀ was much larger for the cultures than for the nodules. This suggests that vesicles or related structures are not the source of the diffusion barrier in Casuarina nodules. Respiration by cultures ofFrankia lacking vesicles became O₂-saturated at low pO₂ values. Thus these cultures did not have a significant diffusion barrier. From these results it is concluded that nodules ofCasuarina cunninghamiana have a barrier to oxygen diffusion supplied by the host tissue and not byFrankia.     

Host range ofFrankia endophytes

Summary Cross-inoculation experiments with 10 pure cultured strains and 17 host species were carried out. The 10 strains were isolated from the root nodules on actinorhizal trees ranging in 9 species, 5 genera and 4 families. The host species belong to 5 genera. The pure cultured strains fromAlnus are of strong ability to infect different species of the same genus. The seedlings inoculated with these strains are able to nodulate normally. These strains can also infect and nodulate the seedlings ofMyrica californica, but not the seedlings of Elaeagnus, Casuarina andMyrica rubra. The pure cultured strains from Elaeagnus can infect and nodulate the host species in the same genus and family with an exception ofE. viridis vardelavayi, which can be only poorly nodulated by a few strains from Elaeagnus. The strains from Elaeagnus cannot infect the seedlings of Alnus andMyrica rubra. The results presented here suggest thatFrankia endophytes can be divided into two groups: Alnus group and Elaeagnus group.     

The influence of fertilizers on root rot of field peas caused by Fusarium oxysporum,Pythium vexans and Rhizoctonia solani inoculated singly or in combination

A Frankia strain ISU 0224887 was isolated from spore negative root nodules of Gymnostoma sumatranum and was grown in pure culture. It was infective and effective for Gymnostoma species but failed to nodulate Allocasuarina and Casuarina seedlings. Light and scanning electron microscopy of it in nitrogen free medium revealed a filamentous mat of septate and branched hyphae bearing sporangia and vesicles capable of fixing nitrogen. The strain also produced an orange pigment after 2 weeks culture. The strain utilized only TWEEN 80 and propionate as sole carbon sources. The different antibiotics used showed varying effects on its growth.     

The isolation,culture and infectivity of aFrankia strain fromGymnostoma papuanum (Casuarinaceae)

A strain ofFrankia was isolated fromGymnostoma papuanum(Casuarinaceae) nodules harvested from rooted cuttings which had been inoculated with a suspension of crushedCasuarina equisetifolia nodules. Designated HFPGpI1 (catalogue #HFP021801), this strain is pigmented and similar to other pigmentedFrankia strains in cultural characteristics. A previously unknown spiraled hyphal morphology was observed at very low frequency in some cultures of this strain. HFPGpI1 is infective and effective onG. papuanum but not on anyCasuarina species tested. It also infects members of the family Elaeagnaceae andMyrica gale. The host plantG. papuanum can be infected with a wide range ofFrankia isolates and thus can be considered a promiscuous host, unlike its close relatives in the genera Casuarina and Allocasuarina which are very restrictive as to which strains may nodulate them.     

Utilization of amino acids by Frankia sp. strain CpI1

The utilization of some amino acids, added at 1 mM and 10 mM concentrations, as the sole combined nitrogen sources by Frankia sp. strain CpI1, has been investigated. Glutamine, like NH ₄ ⁺ , provided rapid growth without N₂ fixation. Histidine at 1 mM yielded poor N₂-fixing activity but better cell growth than N₂. Aspartate, glutamate, alanine, proline, each at 1 mM concentration, supported similar levels of N₂ fixation and growth. Growth on 10 mM glutamate, proline, or histidine resulted in poor N₂-fixing activity and poor cell growth. Cells grown on 10 mM alanine had about half the N₂-fixing activity of cells grown on N₂ but growth was good. Aspartate at 10 mM concentration, however, stimulated N₂-fixing activity dramatically and promoted faster growth. Enzyme analysis suggested that asparate is catabolized by glutamate-oxaloacetate transaminase (GOT), since GOT specific activity was induced, and aspartase activity was not detected, in cells grown on aspartate as the sole combined nitrogen source. Thinlayer chromatography (TLC) of metabolites extracted from N₂-grown cells fed with [¹⁴C]-aspartate showed that label was rapidly accumulated mainly on aspartate and/or glutamate, depending on the cells' physiological state, without detectable labeling on fumarate or oxaloacetate (OAA). These findings provide evidence that aspartate is catabolized by GOT to OAA which, in turn, is rapidly converted to -ketoglutarate through the TCA cycle and then to glutamate by GOT or by glutamate synthase (GOGAT). The stimulation of N₂ fixation and growth by aspartate is probably caused by an increased intracellular glutamate pool.     

Restriction pattern analysis of genomic DNA ofFrankia isolates

Summary Total genomic DNAs ofFrankia isolates were subjected to restriction enzyme digestion and subsequent agarose gel electrophoresis. Restriction fragment banding patterns were unique for each isolate and may therefore be used as a method to distinguish between isolates which may be morphologically indistinguishable. This method might be useful for practical purposes such as tracing specificFrankia strains during field studies.     

Polysaccharide-hydrolyzing enzymes ofFrankia (Actinomycetales)

Studies were made of the polysaccharide-hydrolyzing activity inFrankia (Actinomycetales) grown in synthetic media using modifications of three standard assay procedures. In screening five different strains ofFrankia for cellulase activity, based on the method of utilization of cellulose in liquid culture, only one strain, CcI3, degraded filter paper cellulose to complete disintegration and only under very specific conditions of pH and primary carbon source. When carboxymethylcellulose (CMC) at 1% was used as substrate, all five strains showed the capacity to produce reducing sugars as hydrolytic products. Microcystalline cellulose, xylans and gum arabic were hydrolyzed to a lesser extent. Optimum activity depended upon pH and primary carbon source with pH 5.0 and pyruvate or propionate producing highest activities. In fractionation studies of culturedFrankia, assays for hydrolysis of 1% CMC in liquid medium showed that highest activity was in the enzyme preparation supernatant with lesser activity in the cell-free extract and cell wall fractions.Frankia strain CpI1 showed the greatest total hydrolytic activity against CMC after 2 weeks of culture. Strains ArI3 and CcI3 also showed good activity. The agar plate method for direct dye-polysaccharide interaction proved to be the least sensitive assay method with only ArI3 showing significant activity using CMC as substrate. It appears that theFranka strains grown in synthetic media all showed hydrolytic activity but the degree of hydrolysis of polysaccharides to reducing sugars depends upon strain of bacteria and very specific cultural conditions.     

Co-culture ofFrankia alni subsp.pommerii (strain ACN1 AG ) with birch (Betula papyrifera) protoplasts

The present study was undertaken to set up an experimental system in which barriers to infection of a non-host plant related to the presence of the cell wall, at the level of recognition and/or the necessity of penetrating the cell wall, might be bypassed. Co-cultures betweenFrankia alni subsp.pommerii (strain ACN1 ^AG ) andBetula papyrifera protoplasts were established. Betula protoplasts remained viable after 2 weeks with no substantial cell wall regeneration. Suppression of the wall barrier was not sufficient to allowFrankia infection under the conditions tested. The non-infectivity ofFrankia on Betula protoplasts may also reflect difficulties inherent to thein vitro environment, which might not permit duplication of infection mechanisms.     

Ultrastructure of freeze-substitutedFrankia strain HFPCcI 3, the actinomycete isolated from root nodules ofCasuarina cunninghamiana

Summary Frankia strain HFPCcI 3 is an actinomycete isolated from root nodules ofCasuarina cunninghamiana. In culture it exhibits typicalFrankia morphology and may produce three distinct morphological forms: branching septate hyphae, terminal or intercalary sporangia, and specialized structures termed vesicles which are the purported site of nitrogenase activity. An examination of the ultrastructure of all three morphological forms using both conventional chemical fixation (CF) and quick-freezing followed by freeze-substitution (FS) reveals some interesting differences between the two fixation methods. Unique to FS material are: 1. smooth membrane profiles; 2. lack of mesosomes; 3. lack of discernible nucleoid regions with condensed chromatin; 4. clarity of cytoplasmic elements such as ribosomes and granular bodies; 5. large cytoplasmic tubules in hyphae and young sporangia; 6. outer wall layer not widely separated from the spherical portion of the vesicle, and 7. bundles of microfilaments in vesicles. The quality of preservation after FS appears to be far superior to that obtained with CF. Accordingly the structures observed after FS are thought to represent more faithfully the structure of the living cell.     

Effects of Zn<Superscript>2+</Superscript> on nodulation and growth of a South American actinorhizal plant, <Emphasis Type="Italic">Discaria americana</Emphasis> (Rhamnaceae)

Discaria americana is a xerophytic shrub which lives in symbiosis with an actinomycete of the genus Frankia. The objective of this paper was to investigate the effects of high soil Zn²⁺ concentrations on growth and nodulation on the association Discaria americana–Frankia with the aim of determining if this association is suitable for improving contaminated soils. Two experiments were performed in 1 dm³ pots containing soil and different Zn additions, from 0 to 2,000 mg Zn²⁺ kg⁻¹ dry soil, with or without N fertilization. Zn additions strongly delayed shoot and root growth, but once growth was initiated, the biomass production of the plants supplied with moderate Zn amounts did not differ from the control plants. Zn reduced the final nodule number, but not the total nodule biomass. At the end of the experiment only the highest Zn treatments showed a lower nodule weight than the control plants, while N addition completely inhibited nodulation. It is concluded than Zn reduces the number of Frankia infections, but once the actinomycete is inside the roots, nodules can continue growing according to plant demand for N, compensating the reduced nodule number with more biomass. On the other hand, there is a toxic effect of Zn itself on plants when present in very high concentrations.