Does calcium ameliorate the negative effect of NaCl on melon root water transport by regulating aquaporin activity?

The hydraulic conductance ( L ₀) of detached, exuding root systems from melon ( Cucumis melo cv. Amarillo oro) was measured. All plants received a half-strength Hoagland nutrient solution, and plants stressed either solely with NaCl (50 mM) or with NaCl (50 mM) following treatment (2 d) with CaCl₂ (10 mM) were compared with controls and CaCl₂-treated (10 mM) plants. The L ₀ of NaCl-treated plants was markedly decreased when compared to control and CaCl₂-treated plants, but the decrease was smaller when NaCl was added to plants previously treated with CaCl₂. A similar effect was observed when the flux of Ca²⁺ into the xylem and the Ca²⁺ concentration in the plasma membrane of the root cells were determined. In control, CaCl₂- and NaCl + CaCl₂-treated plants, HgCl₂ treatment (50 μM) caused a sharp decline in L ₀ to values similar to those of NaCl-stressed roots, but L ₀ was restored by treatment with 5 mM DTT. However, in NaCl roots only a slight effect of Hg²⁺ and DTT were observed. The effect of all treatments on L ₀ was similar to that on osmotic water permeability ( P _f) of individual protoplasts isolated from roots. The results suggest that NaCl decreased the passage of water through the membrane and roots by reducing the activity of Hg-sensitive water channels. The ameliorative effect of Ca²⁺ on NaCl stress could be related to water-channel function.     

Taxonomic and symbiotic diversity of bacteria isolated from nodules of Acacia tortilis subsp. raddiana in arid soils of Tunisia

A collection of rhizobia isolated from Acacia tortilis subsp. raddiana nodules from various arid soils in Tunisia was analyzed for their diversity at both taxonomic and symbiotic levels. The isolates were found to be phenotypically diverse. The majority of the isolates tolerated 3% NaCl and grew at 40 °C. Genetic characterization emphasized that most of the strains (42/50) belong to the genus Ensifer, particularly the species Ensifer meliloti, Ensifer garamanticus, and Ensifer numidicus. Symbiotic properties of isolates showed diversity in their capacity to nodulate their host plant and to fix atmospheric nitrogen. The most effective isolates were closely related to E. garamanticus. Nodulation tests showed that 3 strains belonging to Mesorhizobium genus failed to renodulate their host plant, which is surprising for symbiotic rhizobia. Furthermore, our results support the presence of non-nodulating endophytic bacteria belonging to the Acinetobacter genus in legume nodules.     

Toxicity of Sodium and Chloride Ions to Rhizobium spp. in Broth and Peat Culture

The growth of a strain of Rhizobium trifolii and of R. meliloti was studied in broth and peat cultures to determine the relative toxicity of Na⁺ and Cl^-. The following salts were added in a range of concentrations: Na₂HPO₄ as a source of Na⁺, CaCl₂.2H₂O as a source of Cl^-, and NaCl. Disodium hydrogen orthophosphate affected the growth rate of both strains in broth culture but not in peat culture. Unexpectedly, calcium chloride was more toxic than NaCl in broth and peat culture. The toxicity of NaCl can be ascribed to the Cl^-. Rhizobium meliloti strains grew on 3·5% NaCl after adaptation during a long period. Rhizobia for soya bean and cowpea grew at 0·5% NaCl and those for clover and pea, at 1·0% NaCl.     

Salt stress on growth and acid production of Lactobacillus helveticus strain milano

The effect of the addition of chloramphenicol and various salts on growth and acid production of Lactobacillus helveticus strain milano has been investigated using lactose medium. Injection of chloramphenicol induced uncoupling of growth and acid production. Addition of high salt concentrations also resulted in growth inhibition whereas product formation continued. NaCl and CaCl₂ were more inhibitory to the growth of Lact. helveticus strain milano than KCl.     

Nitrogen fixation (C2H2 reduction) by Medicago nodules and bacteroids under sodium chloride stress

Medicago ciliaris (L.) All., a salt-tolerant legume, was not nodulated by Rhizobium meliloti (2011), a strain commonly used for field inoculation of alfalfas. A strain of Rhizobium meliloti (ABS7) was isolated from saline Algerian soils. It is generally more salt-resistant than strain 2011, exhibits a higher rate of growth and induces the formation of nodules on M. ciliaris . C₂H₂ reduction activity of M. ciliaris nodules was inhibited by 50% in the presence of 200 m M NaCl in the culture medium. whereas 100 m M NaCl was sufficient to inhibit the activity of nodules of M. sativa (L. cv. Europe). C₂H₂ reduction by bacteroids, isolated from nodules of the two species of alfalfa, was directly inhibited by the presence of NaCl in the incubation medium. In both cases, glucose could support bacteroid nitrogen fixation, but only in a narrow range of O₂ tensions. Bacteriods from M. ciliaris were more tolerant to salt than M. sativa ones. The salt resistance of bacteroids from nodules of plants watered with NaCl solutions was not improved in either species. Salt directly added to the incubation mixture of bacteroids or to the culture medium of plants inhibited O₂ uptake of bacteroids isolated from nodules of both M. ciliaris and M. sativa . The depressive effect of NaCl on bacteroid C₂H₂ reduction could be directly related to the drop in bacteroid respiration. The nitrogen fixation capacity of the M. ciliaris-Rhizobium meliloti (ABS7) symbiosis under saline conditions leads us to recommend the introduction of this association in salt-troubled areas.     

Alleviation of photoinhibition by calcium supplement in salt-treated Rumex leaves

By analysis of gas exchange and chlorophyll fluorescence, the effects of NaCl treatment and supplemental CaCl₂ on photosynthesis, photosystem II (PSII) photochemistry and photoinhibition were investigated in Rumex leaves. Photosynthesis in Rumex leaves was strongly inhibited by 200 m M NaCl treatment. Such inhibition of photosynthesis was ameliorated by CaCl₂ supplement. Neither NaCl treatment nor CaCl₂ supplement had any significant effects on the PSII primary photochemical reaction in dark-adapted leaves. In light-adapted leaves, however, 200 m M NaCl treatment significantly decreased photochemical quenching (q_p), efficiency of excitation energy capture by open PSII reaction centers (F_V'/F_M') and quantum yield of PSII electron transport (Φ_PSII). These decreases in q_p, F_V'/F_M' and Φ_PSII were mitigated by CaCl₂ supplement with the maximum of its effect appearing at a concentration of 8 m M CaCl₂. A similar mitigating effect was shown in 200 m M NaCl-treated Rumex leaves when susceptibility of PSII to photoinhibition was determined under high irradiance. It is suggested that the mitigation of photoinhibition in NaCl-treated leaves is because of the amelioration of inhibition of photosynthesis.     

Phenotypic and genetic diversity of Moroccan rhizobia isolated from Vicia faba and study of genes that are likely to be involved in their osmotolerance

Rhizobia are symbiotic nitrogen-fixing bacteria in root nodules of legumes. In Morocco, faba bean (Vicia faba L.), which is the main legume crop cultivated in the country, is often grown in marginal soils of arid and semi-arid regions. This study examines the phenotypic diversity of rhizobia nodulating V. faba isolated from different regions in Morocco for tolerance to some abiotic stresses. A total of 106 rhizobia strains isolated from nodules were identified at the species level by analysing 16S rDNA. Additionally, for selected strains recA, otsA, kup and nodA fragments were sequenced. 102 isolates are likely to belong to Rhizobium leguminosarum or R. laguerreae and 4 isolates to Ensifer meliloti. All strains tolerating salt concentrations of 428 or 342 mM NaCl as well as 127 or 99 mM Na2SO4 were highly resistant to alkaline conditions (pH 10) and high temperature (44 °C). Three strains: RhOF4 and RhOF53 (both are salt-tolerant) and RhOF6 (salt-sensitive) were selected to compare the influence of different levels of salt stress induced by NaCl on growth and on trehalose and potassium accumulation. We find a direct correlation between the trehalose contents of the rhizobial strains and their osmotolerance.     

Phenotypic characteristics and composition of rhizobia associated with woody legumes growing in diverse Kenyan conditions

Over 480 rhizobia were isolated from root nodules of woody legume and herbaceous trap host species grown in soils collected from 12 different Kenyan sites. The isolates were differentiated by growth and morphological characteristics, intrinsic antibiotic resistance (IAR) and salt (NaCl) tolerance levels (STL) when grown on yeast mannitol mineral salts agar and broth media.The bulk of the isolates (91%) were watery, milky-translucent and curdled milk types with moderate to copious extracellular polysaccharide (EPS). The rest were creamy or white opaque with little to moderate EPS production. Overall, they showed a wide range of growth rates: very fast-growing (mean generation time 1.6–2.5 h), fast-growing (2.8–4.8 h), intermediate between fast- and slow-growing (5.6–5.7 h) and slow- and very slow-growing (6.4–8.8 h). The isolates were tentatively grouped into Rhizobium spp., to include very fast, fast and intermediate (acid-producing) types; and Bradyrhizobium spp., to include very slow, slow and intermediate (alkali-producing) types.Bradyrhizobium spp. were more sensitive to antibiotics (40 g mL^-1) than Rhizobium spp., contrary to the general opinion which indicates that they are normally resistant. Cluster analysis based on sensitivity responses of IAR and STL could not distinguish Rhizobium spp. from Bradyrhizobium spp., neither was there any association by site nor host of isolation except for those isolates trapped with Phaseolus vulgaris at Kibwezi.Our data demonstrated a high diversity of tropical rhizobia associated with trees.     

Characterization of high temperature-tolerant rhizobia isolated from Prosopis juliflora grown in alkaline soil

A method was developed for the fast screening and selection of high-temperature tolerant rhizobial strains from root nodules of Prosopis juliflora growing in alkaline soils. The high-temperature tolerant rhizobia were selected from 2,500 Rhizobium isolates with similar growth patterns on yeast mannitol agar plates after 72 h incubation at 30 and 45 degrees C, followed by a second screening at 47.5 degrees C. Seventeen high-temperature tolerant rhizobial strains having distinguishable protein band patterns were finally selected for further screening by subjecting them to temperature stress up to 60 degrees C in yeast mannitol broth for 6 h. The high-temperature tolerant strains were NBRI12, NBRI329, NBRI330, NBRI332, and NBRI133. Using this procedure, a large number of rhizobia from root nodules of P. juliflora were screened for high-temperature tolerance. The assimilation of several carbon sources, tolerance to high pH and salt stress, and ability to nodulate P. juliflora growing in a glasshouse and nursery of the strains were studied. All five isolates had higher plant dry weight in the range of 29.9 to 88.6% in comparison with uninoculated nursery-grown plants. It was demonstrated that it is possible to screen in nature for superior rhizobia exemplified by the isolation of temperature-tolerant strains, which established effective symbiosis with nursery-grown P. juliflora. These findings indicate a correlation between strain performance under in vitro stress in pure culture and strain behavior under symbiotic conditions. Pure culture evaluation may be a useful tool in search for Rhizobium strains better suited for soil environments where high temperature, pH, and salt stress constitutes a limitation for symbiotic biological nitrogen fixation.     

青藏高原横断山区饲用黄芪根瘤菌的抗逆性及系统发育分析

分离纯化青藏高原横断山区(四川甘孜藏族自治州和阿坝藏族羌族自治州)原生野生饲用黄芪根瘤菌,为优良菌株的筛选提供种质资源.采用纯培养法从该地区部分饲用黄芪植物根瘤中分离纯化根瘤菌;通过16SrDNA序列同源性分析确定菌株的系统发育地位;通过测定菌株的耐盐性、初始pH生长范围及生长温度范围来分析饲用黄芪根瘤菌的抗逆性.从青...     

Effects of salt on rhizobia and bradyrhizobia: a review

Rhizobia and bradyrhizobia strains vary in their tolerance to salt-stress. Rhizobium strains (fast-growers) are more salt-tolerant than strains of Bradyrhizobium (slow-growers). However, salt-tolerance in both genera is dependent upon ionic species, pH value, temperature, carbon source and the presence of osmoprotectant solutes. The harmful effect of salts on growth of both genera can be attributed to the specific ion effect rather than the osmotic effect. The salt-tolerance of different strains of rhizobia and bradyrhizobia is not related to their ecological origin. Data for salt tolerance of 684 strains of rhizobia and bradyrhizobia were collected from many reports. Most of the reports confound the effects of salt and express the concentrations of salts in percentage (%), electrical conductivity (dS m^-1), molar concentration (m ) or osmotic pressure (MPa) regardless of their differences. All the published data were compiled and recalculated from the different expressions to their equivalent molar concentration (m ) of NaCl. A suggested classification of salt-tolerance of rhizobia and bradyrhizobia from the compiled data is presented.     

Diversity among Rhizobia Effective with Robinia pseudoacacia L

The diversity of rhizobia that form symbioses with roots of black locust (Robinia pseudoacacia L.), an economically important leguminous tree species, was examined by inoculating seedling root zones with samples of soil collected from the United States, Canada, and China. Bacteria were isolated from nodules, subcultured, and verified to be rhizobia. The 186 isolates varied significantly in their resistance to antibiotics and NaCl, their growth on different carbohydrates, and their effect on the pH of culture media. Most isolates showed intermediate antibiotic resistance, the capacity to use numerous carbohydrates, and a neutral to acid pH response. Isolates had greater similarity within sampling locations than among sampling locations. The isolates were grouped by using numerical taxonomy techniques, and representative strains of 37 groups were selected. The mean generation times of these isolates ranged from 3 to 9 h, and the protein profile of each of the 37 isolates was unique. Nitrogen fixation, total nitrogen accumulation, and plant growth varied significantly among black locust seedlings inoculated with the representative isolates. We conclude that great variation exists among Rhizobium spp. that nodulate black locust, and selection of strains for efficiency of the symbiotic association appears possible.     

Diversity among Rhizobia Effective with Robinia pseudoacacia L.

The diversity of rhizobia that form symbioses with roots of black locust (Robinia pseudoacacia L.), an economically important leguminous tree species, was examined by inoculating seedling root zones with samples of soil collected from the United States, Canada, and China. Bacteria were isolated from nodules, subcultured, and verified to be rhizobia. The 186 isolates varied significantly in their resistance to antibiotics and NaCl, their growth on different carbohydrates, and their effect on the pH of culture media. Most isolates showed intermediate antibiotic resistance, the capacity to use numerous carbohydrates, and a neutral to acid pH response. Isolates had greater similarity within sampling locations than among sampling locations. The isolates were grouped by using numerical taxonomy techniques, and representative strains of 37 groups were selected. The mean generation times of these isolates ranged from 3 to 9 h, and the protein profile of each of the 37 isolates was unique. Nitrogen fixation, total nitrogen accumulation, and plant growth varied significantly among black locust seedlings inoculated with the representative isolates. We conclude that great variation exists among Rhizobium spp. that nodulate black locust, and selection of strains for efficiency of the symbiotic association appears possible.     

Properties of Intracellular Hatching enzyme in the Embryos of the Sea Urchin, Hemicentrotus pulcherrimus

The intracellular hatching enzyme was confirmed to be particulate-bound in the sea urchin, Hemicentrotus pulcherrimus. The enzyme was solubilized most effectively by sonication in buffer containing 12.5 mM CaCl₂, and 0.5 M KCl. The intracellular hatching enzyme is suggested to be activated by an antipain- or elastatinal-susceptible protease(s) on its solubilization. Since the intracellular hatching enzyme solubilized in the absence of protease inhibitors was inhibited by phenylmethylsulfonyl fluoride (PMSF) and chymostatin, the active hatching enzyme is concluded to be a chymostatin-sensitive serine protease. The enzyme required CaCl₂, and KCl or NaCl for both stability and activity. The preference of the enzyme of anions as sodium salts was as follows: Cl⁻ > NO₃⁻ > I⁻ > SCN⁻. The apparent molecular weights of the intracellular hatching enzyme (IHE) and the hatching enzyme secreted from the blastula with or without the fertilization envelope (SHE or dSHE) were estimated as 89,000, 135,000, 80,000, respectively. On incubations with isolated fertilization envelopes as an enzyme substrate, the apparent molecular weights of dSHE and IHE increased to 128,000 and 105,000, respectively.     

Genetic diversity and symbiotic compatibility among rhizobial strains and Desmodium incanum and Lotus spp. plants

This work aimed to evaluate the symbiotic compatibility and nodulation efficiency of rhizobia isolated from Desmodium incanum, Lotus corniculatus, L. subbiflorus, L. uliginosus and L. glaber plants by cross-inoculation. Twelve reference strains and 21 native isolates of rhizobia were genetically analyzed by the BOX-PCR technique, which showed a high genetic diversity among the rhizobia studied. The isolates were also characterized based on their production of indolic compounds and siderophores, as well as on their tolerance to salinity. Fifteen of the 33 rhizobia analyzed were able to produce indolic compounds, whereas 13 produced siderophores. All the tested rhizobia were sensitive to high salinity, although some were able to grow in solutions of up to 2% NaCl. Most of the native rhizobia isolated from L. uliginosus were able to induce nodulation in all plant species studied. In a greenhouse experiment using both D. incanum and L. corniculatus plants, the rhizobia isolate UFRGS Lu2 promoted the greatest plant growth. The results demonstrate that there are native rhizobia in the soils of southern Brazil that have low host specificity and are able to induce nodulation and form active nodules in several plant species.     

Growth, pectate lyase production and solute accumulation by Erwinia chrysanthemi under osmotic stress: effect of osmoprotectants

Glycine betaine strongly stimulated the growth rate of five strains of Erwinia chrysanthemi when grown in a synthetic medium at 0·986, 0·983 and 0·980 a _w (NaCl) whereas in four strains, little effect was observed compared with the control. Proline, dimethyl glycine, carnitine and pipecolic acid also actedas osmoprotectants. Glutamate and trehalose, commonly accumulated by enteric bacteria in response to osmotic stress, failed to act as osmoprotectants when supplied exogenously. Glycine betaine and pipecolic acid partially overcame the inhibition of pectate lyase release by NaCl in strain ECC. ¹³C NMR spectroscopy of two osmotically-stressed strains showed that glycine betaine was accumulated intracellularly from synthetic media containing the exogenous osmoprotectant. However, both strains also synthesized and accumulated trehalose in addition to glycine betaine in response to osmotic stress in complex media containing glycine betaine.     

Identification and characterization of Lactobacillus species isolated from fillets of vacuum-packed smoked and salted herring (Clupea harengus)

Seventy-eight strains were isolated from fillets of vacuum-packed smoked and salted herring ( Clupea harengus ) on APT glucose medium at 5°C or 20°C . All the isolates belonged to the genus Lactobacillus . CO₂ production and arginine degradation were characteristic of the isolates. A dichotomous key is proposed, using only four characters (growth on Rogosa broth, fermentation of ribose, presence of meso -diaminopimelic acid, isomer of lactate produced) for presumptive identification of lactobacilli from fish. The isolates could be allocated to three groups related to Lactobacillus groups II or III of Kandler and Weiss. Most of the strains possess important technological capacities : tolerance of high levels of NaCl, liquid smoke and bile salts. No lipolytic activity was found but some proteolytic activity was found on casein. Inhibitory activity against pathogenic or spoilage organisms was frequent and probably due to the production of hydrogen peroxide, or organic acids or both. No Carnobacterium strains were isolated despite the use of suitable temperature and isolation medium, probably because of the smoking of the fish.     

Choline and Glycine Betaine Uptake in Various Strains of Rhizobia Isolated from Nodules of Vicia faba var. major and Cicer arietinum L.: Modulation by Salt,Choline, and Glycine Betaine

Two strains of Rhizobia isolated from nodules of Vicia faba var. major and one strain isolated from nodules of Cicer arietinum L. were characterized for salt resistance. The presence of 1 mM glycine betaine or choline in a minimal medium with added NaCl had a beneficial role on the growth of the three strains. Both molecules were found to be taken up by cells obtained at low osmolarity, and whereas glycine betaine uptake activity was stimulated significantly in cells grown in the presence of 0.15 M NaCl, choline uptake activity was strongly inhibited by salt in all tested strains. However, in cells grown with exogenous choline, the uptake inhibition exerted by salt was relieved, mainly in the strain isolated from nodules of C. arietinum L. On the basis of kinetics determinations, in control cells as well as in salt-stressed cells, only high-affinity activities were observed for glycine betaine and choline (apparent K _m s between 3 and 18 μM). Periplasmic proteins that bound glycine betaine or choline were identified. In nondenaturing conditions, these proteins extracted from the various strains showed different electrophoretic mobility with always a less negative entire charge than the analogous proteins from Rhizobium meliloti. Received: 29 July 1996 / Accepted: 10 September 1996     

Nitrogen fixation and carbon metabolism by nodules and bacteroids of pea plants under sodium chloride stress

Acetylene reduction activity (ARA) and leghemoglobin (Lb) content in nodules were sigificantly reduced when pea ( Pisum sativum L. cv. Lincoln) plants were subjected to 50 m M sodium chloride stress for 3 weeks. C₂H₂ reduction activity by bacteriods isolated from pea nodules was drastically inhibited by saline stress, and malate appeared to be a more appropriate substrate than glucose or succinate in maintaining this activity. Salt added directly to the incubation mixture of bacteriods or to the culture medium of plants inhibited O₂ uptake by bacteroids. Nodule cytosolic phosphoenolpyruvate carboxylase (PEPC; EC 4.1.1.31) and bacteriod malate dehydrogenase (MDH; EC 1.1.1.37) activities were strongly enhanced by salt stress. Under these conditions, malate concentration was depressed in bacteroids and cytosol, whereas total soluble sugar (TSS)content slightly increased in both fractions. The effect of salt stress on TSS and malate content suggests that the utilization of carbohydrate within nodules could be inhibited during salt stress. The inhibitory effect of NaCl on N₂ fixation activity of bacteroids and to the decrease in bacteroid respiration. The stimulation of fermentative metabolism induced by salinity suggests some reduction in O₂ availability within the nodule. Salt stress was also responsible for a decrease of the cytosolic protein content, specifically of leghemoglobin, in the nodules.     

毛乌素沙地中间锦鸡儿根瘤菌的多样性及其抗逆性

从内蒙古毛乌素沙地优势物种中问锦鸡儿收集根瘤,分离根瘤菌15株,对其进行同工酶电泳,聚类分析证明中间锦坞儿的遗传多样性对其耐盐性、耐酸碱性、生长温度范围、产酸产碱性、过氧化氢酶活性以及唯一碳源利用能力进行比较研究,结果表明,所有中间锦鸡儿根瘤菌均分泌H^+,都具有过氧化氢酶活性,73.3%的菌株可以在含3％NaCl的YMA培养基上生长,80％的菌株可以抵抗50℃高温,除对乳糖和淀粉利用表现出差异外,中间锦鸡儿根瘤菌对其余碳源没有选择性,证明中间锦鸡儿根瘤菌具有较强的抗逆性,但仍存在菌株间差异,是对毛乌素沙地多种景观生态类型的适应作为一种新的种质资源,中间锦鸡儿根瘤菌可用于恶劣生境固氮。