Effect of salt stress on nodulation and nitrogen fixation in legumes

It is now well established that almost all phases of root nodule development in legumes are adversely affected by saline conditions in the rooting medium. There is also a general agreement that the rhizobia are more tolerant to salt stress than the host plant, but they show considerable strain variability in growth and survival under saline conditions. Inhibitory effect of salinity on nodulation has been attributed to decrease in rhizobial colonisation and shrinkage and lack of root hair formation. Salt stress also induces premature senescence of already formed nodules. Both N2-fixation activity and nodule respiration are inhibited sharply on exposure of plants to saline conditions. The decrease in N2-fixation has been ascribed to direct effect on nitrogenase activity or an indirect effect through decrease in leghemoglobin content, respiratory rate, malate concentrations in nodules and photosynthate availability. Salinity increases oxygen diffusion resistance in the nodules and alters their ultrastructure. Decrease in N2-fixation in nodules under salinity is also accompanied by parallel decrease in the activity of H2O2-scavenging enzymes like catalase, ascorbate peroxidase and the level of antioxidants like ascorbic acid. Nodules appear to undergo osmoregulation under saline conditions by accumulating physiologically compatible solutes like proline, sugars (pinnitol) and lactic acid. The intensity of the adverse effects of salinity on nodule functioning depends on plant species, rhizobial strain, duration of exposure to saline conditions, nature, concentration and mode of salt application.     

Biochar improved nodulation and nitrogen metabolism of soybean under salt stress

To investigate salt stress and biochar application effects on nodulation and nitrogen metabolism of soybeans (Glycine max cv. M7), an experiment was conducted under the control condition. The treatments comprised three biochar rates (non, 50 and 100 g kg^?1 soil) and three salinities (0, 5 and 10 dS m^?1 NaCl), with four replications of treatments. Salt stress diminished the number of nodules and their weights in the soybean roots. Nitrogen content and metabolism decreased in nodules, roots and shoots, while reducing the activity of glutamate dehydrogenase (GDH), glutamine synthetase (GS), glutamine oxoglutarate aminotransferase (GOGAT) and nitrate reductase (NR). Also, salinity brought down root and shoot weight, total plant biomass, chlorophyll content, leaf area (LA) and rubisco activity in the soybean. On the other hand, application of biochar improved nodulation, nitrogen content, rubisco activity, GDH, GS, GOGAT and NR activities in different parts of the soybean and nodules under salt stress, and consequently improved chlorophyll content, LA, root and shoot weight. Both the 50 and 100 g kg^?1 biochar rates showed similar effects in improving nitrogen metabolism and plant performance under salt stress. Generally, biochar increased nodulation and nitrogen metabolism of the soybean under saline conditions.     

Characterization and culture of Agrobacterium rhizogenes transformed roots of forage legumes

Agrobacterium rhizogenes wild type strain 8196 induced root growth at the site of stab-wounding on 5-day-old seedlings of red clover (Trifolium pratense), siratro (Macroptilium atropurpureum, a tropical forage legume), and alfalfa (Medicago sativa). Excised roots grew rapidly on hormone-free medium, were highly branched, and lacked geotropism. Paper electrophoresis of the root extracts confirmed the presence of opines. Confirmed transformed roots still proliferating from the wound site, were inoculated with Rhizobium and compared with inoculated non-transformed roots on seedlings raised under identical conditions. Nodulation was inhibited in the transformed roots. Control experiments using mixed inoculation of Rhizobium and Agrobacterium even at a ratio of 1:1000 on control seedlings showed no inhibition of nodulation, suggesting that the observed inhibition of nodulation on transformed roots was a result of the Ri T-DNA rather than the Agrobacterium rhizogenes in the tissue.     

Application of genistein to inocula and soil to overcome low spring soil temperature inhibition of soybean nodulation and nitrogen fixation

In the soybean (Glycine max. (L.) Merr)– Bradyrhizobium japonicum symbiosis, suboptimal root zone temperatures (RZTs) slow nodule development by disruption of the interorganismal signal exchange between the host plant and bradyrhizobia. Two field experiments were conducted on two adjacent sites in 1994 to determine whether the incubation of B. japonicum with genistein prior to application as an inoculant, or genistein, without B. japonicum, applied onto seeds in the furrow at the time of planting, increased soybean nodulation, N fixation, and total N yield. The results of these experiments indicated that genistein application increased nodule number and nodule dry matter per plant and hastened the onset of N fixation during the early portion of the soybean growing season, when the soils were still cool. Because these variables were improved, total fixed. N, fixed N as a percentage of total plant N, and N yield increased due to genistein application. The interaction between genistein application and soybean cultivars indicated that genistein application was more effective on N-stressed plants.     

Evidence of protein-tyrosine kinase activity in Catharanthus roseus roots transformed by Agrobacterium rhizogenes

Homogenate fractions (soluble and particulate) from transformed roots of Catharanthus roseus (L.) G. Don showed several phosphorylated proteins when incubated with γ-[³²P]ATP. The phosphorylation in the proteins of 55, 40, 25, 18 and 10 kDa in the particulate fraction and 63 kDa in the soluble fraction was resistant to alkali treatment. Several proteins in both fractions gave a positive signal with monoclonal antiphosphotyrosine antibodies. In-situ phosphorylation in both fractions showed several proteins that cross-reacted with the antiphosphotyrosine antibodies. Tyrosine kinase activity was detected using an exogenous substrate RR-SRC, a synthetic peptide derived from the amino acid sequence surrounding the phosphorylation site in pp60^src. This activity was inhibited by genistein, a tyrosine kinase inhibitor. These results indicate, for the first time, the presence of protein-tyrosine kinase (EC 2.7.1.112) activity in transformed plant tissues. Received: 29 March 1997 / Accepted: 21 May 1997     

Relationship between Agrobacterium rhizogenes transformed hairy roots and intact,uninfected nicotiana plants

Hairy root cultures were obtained following infection of a range of Nicotiana species with Agrobacterium rhizogenes. Such cultures synthesized alkaloids in amounts which closely reflected, in both qualitative and quantitative terms, the biosynthetic capacity of roots from the uninfected parent species or variety. Cultures also released alkaloids from the roots into the growth medium. Such release was not however correlated with the ability of intact plants to mobilize alkaloids from the roots to aerial parts. The predictable nature of many aspects of secondary product synthesis in hairy roots should be advantageous to the development of biotechnological processes.     

Frequent spontaneous deletions of Ri T-DNA in Agrobacterium rhizogenes transformed potato roots and regenerated plants

The presence of T-DNA was examined by Southern blot analysis in 16 regenerated shoot lines derived from 6 Agrobacterium rhizogenes-transformed root clones of Solanum tuberosum L. cv. Bintje.TR-DNA, present in regenerated shoot lines from 3 out of 6 root clones was correlated with the presence of opines. One root clone produced opines up to 2.5 years of subculture. However, plant regeneration from and prolonged subculturing of this root clone resulted in loss of opine synthesis, caused by deletion of TR-DNA.TL-DNA inserted at 1 to 5 independent loci was found in 14 of the 16 shoot lines. Surprisingly, 1 to 2 additional insertions next to similar insertions of TL-DNA were found in shoot lines from the same root clone (named sister shoot lines) in 2 out of 4 root clones. Nevertheless, this did not result in gross phenotypic variation between sister shoot lines. Another root clone regenerated 1 shoot line with an Ri phenotype, containing 1 insertion of TL-DNA, and 2 shoot lines with a normal Bintje phenotype without TL-DNA. The 5th root clone showed no difference between sister shoot lines and the 6th root clone produced only 1 shoot line.We conclude that during prolonged root culture and during shoot regeneration from root clones deletion of TL- and TR-DNA insertions can occur. The significance of the frequency of deletion of T-DNA of the Ri plasmid is discussed.     

The use of Agrobacterium rhizogenes transformed roots to obtain transgenic shoots of the apple rootstock Jork 9

The apple rootstock Jork 9 was transformed using four different Agrobacterium rhizogenes virulent strains. The mannopine strain 8196 gave the best results in the production of chimeric plants compared to two agropine strains (A4 and 15834) and one cucumopine strain. Shoot regeneration was performed on both untransformed and transformed roots. Optimum combination and concentration of thidiazuron (TDZ) and -naphtaleneacetic acid (NAA) was different between untransformed and transformed roots. From the transformed roots seven shoots were obtained and propagated as individual clones. All shoots from these clones rooted on a hormone-free medium contrary to untransformed shoots that did not root under similar culture conditions. Differences in the morphology of the leaves and stems were observed between the clones. The transformed status of the different clones was verified with mannopine tests, PCR and Southern blot analyses. Five clones contained the mas1', the ORF 13 and the rolB genes, whereas two clones contained only the rolB gene.     

Modification of the gravitropic response of seedling roots of raneseed (Brassica napus) transformed by Agrobacterium rhizogenes A4

We have examined the growth and gravitropic response of seedling roots of rapeseed ( Brassica napus . CrGC5–1) transformed by Agrobacterium rhizogenes A4, in order to evaluate if this could constitute a new model system for the study of gravitropism. The transformed clone chosen for study had integrated full-length TL- and TR-DNA from pRi (the root inducing plasmid), and thus included all of the agrobacterial genes potentially involved in the modified phenotype of transformed plants. In the vertical position, the growth rate of transformed roots was higher than controls. During 24 h of continuous stimulation, the optimal angle for gravitropic bending in normal roots was 135° (with respect to the gravity axis), with decreasing response at 90° and 45°. For transformed roots, slight curvature developed at 45° and at 90°, and stronger curvature was observed at 135°, though transformed roots tips never reached the vertical position. The minimum stimulation time necessary to elicit a response (presentation time) was also determined: it was signficantly shorter in normal roots (80 s) than in transformed ones (120 s). The results show that pRi transformed roots are less sensitive to gravity than normal roots.     

Preincubation of B. japonicum cells with genistein reduces the inhibitory effects of mineral nitrogen on soybean nodulation and nitrogen fixation under field conditions

Genistein is the major root produced isoflavonoid inducer of nod genes in the symbiosis between B. japonicum and soybean plants. Reduction in the isoflavonoid content of the host plants has recently been suggested as a possible explanation for the inhibition of mineral nitrogen (N) on the establishment of the symbiosis. In order to determine whether genistein addition could overcome this inhibition, we incubated B. japonicum cells (strain 532C) with genistein. Mineral N (in the form of NH₄NO₃) was applied at 0, 20 and 100 kg ha^-1. The experiments were conducted on both a sandy-loam soil and a clay-loam soil. Preincubation of B. japonicum cells with genistein increased soybean nodule number and nodule weight, especially in the low-N-containing sandy-loam soil and the low N fertilizer treatment. Plant growth and yield were less affected by genistein preincubation treatments than nitrogen assimilation. Total plant nitrogen content was increased by the two genistein preincubation treatments at the early flowering stage. At maturity, shoot and total plant nitrogen contents were increased by the 40 μM genistein preincubation treatment at the sandy-loam soil site. Total nitrogen contents were increased by the 20 μM genistein preincubation treatment only at the 0 and 20 kg ha^-1 nitrate levels in clay-loam soil. Forty μM genistein preincubation treatment increased soybean yield on the sandy-loam soil. There was no difference among treatments for 100-seed weight. The results suggest that preincubation of B. japonicum cells with genistein could improve soybean nodulation and nitrogen fixation, and at least partially overcome the inhibition of mineral nitrogen on soybean nodulation and nitrogen fixation. This revised version was published online in June 2006 with corrections to the Cover Date.     

Characteristics of growth and tropane alkaloid production in Hyoscyamus albus hairy roots transformed with Agrobacterium rhizogenes A4

Summary Hairy root culture of Hyoscyamus albus was established by transformation with Agrobacterium rhizogenes strain A4. The growth and production of five tropane alkaloids were investigated under various culture conditions. Among the four basal culture media tested, Woody Plant medium was the best for growth of the hairy roots, but a high amount of tropane alkaloids was obtained with Gamborg's B5 medium. Sucrose concentration in B5 medium had little effect on the growth, while 3% sucrose was suitable for the alkaloid production. Addition of KNO₃ to Woody Plant medium affected the growth, whereas the alkaloid content was not markedly improved. Supplement of some metal ions to B5 medium stimulated the alkaloid production. In particular, Cu²⁺ remarkably enhanced both the growth and the alkaloid yield. The hairy roots cultured under 16 h/day light survived for more than 32 days compared with those cultured in the dark.Abbreviations EDTA ethylenediaminetetraacetic acid - HPLC high performance liquid chromatography - MeOH methanol - MS medium Murashige and Skoog medium - WP medium McCown's Woody Plant medium - B5 medium Gamborg B5 medium - wt weight     

In vitro dual culture of Polymyxa betae in Agrobacterium rhizogenes transformed sugar beet hairy roots in liquid media

Polymyxa betae is a soil-borne protist and an obligate parasite of sugar beet that transmits the beet necrotic yellow vein virus. Sugar beet hairy roots, transformed by Agrobacterium rhizogenes, were inoculated with surface-sterilized root fragments infected by P. betae. After 10 wk in a liquid medium, typical structures of P. betae were observed in this in vitro system. This first in vitro culture of P. betae in liquid medium will contribute to a better understanding of this protist's biology through providing a way to conserve and produce purified isolates of the protist.     

Variation in structure and plant regeneration of Agrobacterium rhizogenes transformed and control roots of the potato cv. Bintje

Agrobacterium rhizogenes transformed and control roots of the tetraploid potato cv. Bintje were compared. Transformed roots were obtained after infection by A. rhizogenes 15834 or 1855. Both in leaf and stem segments, more roots were formed at the basal side of the segments, indicative for a polarity in root formation. As compared to control roots the transformed roots are characterized by smaller and more densely stained cells, a zone of cell division, and smaller statoliths. These characteristics are correlated with vigorous growth, high branching incidence and diminished geotropism. The plant regeneration procedure according to Ooms et al. [1] was modified. The transformed roots required less 2,4-D than control roots for the induction of shoot-competent calli. The callus and shoot induction phases were reduced from 8 and 6 weeks to 3 and 3 weeks, respectively. Upon induction, 25%, 58% and 61% of the root clones originating from tuber, stem and leaf, respectively, produced shoots, whereas all of the control roots produced shoots. Shoot outgrowth occurred on liquid MS medium in the absence of hormones.Abbreviations Ri-root Agrobacterium rhizogenes transformed root - BAP benzylaminopurine - IAA indoleacetic acid - GA₃ gibberellic acid - NAA naphthaleneacetic acid - 2,4-D 2,4 dichlorophenoxyacetic acid     

Cysteine proteases in nodulation and nitrogen fixation

The cysteine proteinases or cysteine endopeptidases (EC 3.4.22) are known to occur widely in plant cells. They are involved in almost all aspects of plant growth and development including germination, circadian rhythms, senescence and programmed cell death. They are also involved in mediating plant cell responses to environmental stress (such as water stress, salinity, low temperature, wounding, ethylene, and oxidative conditions) and plant-microbe interactions (including nodulation). In the development and function of legume root nodules, cysteine proteases could be involved in several important processes:-(i) a defence response to root invasion by microorganisms; (ii) protein turnover required during the formation of new tissue; (iii) cellular homeostasis and metabolism; (iv) adaptation of host cells to physiological stresses; (v) control of nodule senescence. Because of their central importance to plant physiology, cysteine proteases could serve as important targets for the study of nodule development and functioning at the molecular level. Because of their widespread occurrence in nodulating plants they could also serve as candidate genes for targeted plant breeding programmes.     

Use of roots transformed by Agrobacterium rhizogenes in rhizosphere research: applications in studies of cadmium assimilation from sewage sludges

The use of roots transformed by Agrobacterium rhizogenes in models for the rhizosphere is discussed. A list of species for which transformed root cultures have been obtained is provided and the example of studies of cadmium assimilation from sewage sludges is given to illustrate how transformed root cultures can be used in physiological tests under non-sterile conditions.     

Agrobacterium rhizogenes mediated induction of apparently untransformed roots and callus in chrysanthemum

The agropine type Agrobacterium rhizogenes strain LBA9402 induced callus and roots on stems of greenhouse grown plants and on leaf disks of in vitro grown plantlets of chrysanthemum (Dendranthema grandiflora Tzvel.). In this callus and roots no opines were detected, nor were any of the other features of the hairy root syndrome observed. Experiments aimed to identify the nature of the tumour-like growth revealed that induction was correlated with the presence of the TR-DNA on the Ri-plasmid. Root induction was probably the result of auxin synthesis following transient expression of iaaM and iaaH genes, present on the TR-DNA. The chrysanthemum cultivar used, cv. Parliament, showed a high auxin sensitivity compared to tobacco. Analysis of early transformation events using the GUSintron reporter gene revealed that low efficiency gene transfer and transient gene expression took place, but most probably without stable integration of the T-DNA in the plant genome. The results presented here stress the fact that callus formation or root induction as measures for transformation efficiency should be used with caution.     

Growth,nodulation and nitrogen fixation in soybean as affected by air humidity and root temperature

Growth, nodulation and N₂ fixation inGlycine max L. Merr., cv. Biison as affected by the relative humidity of air (RH) during the dark period (95 or 50 – 65 %) and day/night root temperature (T_r) (28/28, 25/25, 18/18, 22/28, 22/18 °C) were studied. The growth parameters (plant fresh and dry mass, yield), nodulation (nodule number and fresh mass) and N₂ fixation abilities (total nitrogen content, nitrogenase activity) increased significantly with the increasing T_r. In addition, at the same T_r during the day all studied parameters were increased at the higher T_r during the dark period. Growth, nodulation and N₂ fixation were significantly enhanced at low RH. The findings indicate that all studied parameters could be regulated by environmental factors during the dark period.     

Activities of proteinases in maize and soybean roots in response to anoxic stress

This study characterized the changes in proteinase activities in maize inbred line H60 and soybean cultivar Keller roots in response to anoxia. After 24 h of anoxia, crude protein extracts from both maize and soybean root tips (10 cm) were assayed for proteinase activities at pHs ranging from 4.5 to 10.2. In anoxic roots of both maize and soybean, activities of proteinases with alkaline pH optima increased, and activities of proteinases with acidic pH optima declined. Proteinases with neutral pH increased in anoxic maize roots, but declined in anoxic soybean roots. Whether the differences in proteinase activities in anaerobic maize and soybean roots contribute to the differental susceptibility of the two species requires further study.Journal Article No. 265-89.     

Interactions ofRhizobium japonicum strains in soybean nodules and their contribution to nitrogen fixation

Summary Rhizobium japonicum strain 8-0 Str^R applied as inoculum to Clark 63 soybeans formed small ineffective nodules which had very low nitrogenase activity compared to nodules formed by two effective strains, 110 Tet^R and 138 Kan^R. Mean numbers of cells per milligram of nodule tissue for plants up to 34 days old were 7.7×10⁶ for 8-0 Str^R, 4.1×10⁸ for 110 Tet^R and 7.6×10⁸ for 138 Kan^R. Cell counts per unit mass of nodule were independent of plant age for strains 110 Tet^R and 138 Kan^R, however, for strain 8-0 Str^R, 25 and 34 days old plants had fewer viable cells per nodule mass than 18 day old plants. When a mixture of two effective strains was used, the nodules of individual plants were predominantly caused by either 110 Tet^R or 138 Kan^R. In one experiment the predominance was random, but in another, strain 110 Tet^R clearly dominated. Strain 138 Kan^R was absent in some nodules on 18 day old plants, and in others, less than 10² cells per nodule were found. When strains 8-0 Str^R and 138 Kan^R were used as mixed inoculum, most of the nodules had strain 8-0 Str^R but strain 138 Kan^R was detected in many nodules and was generally evident in the largest nodules. Nitrogenase activity by many individual nodules was low except for nodules which had cells of 138 Kan^R. Nitrogenase activity by whole root systems of these plants was relatively high and similar to plants that had only nodules of strain 138 Kan^R. Similar relationships were observed for a mixed inoculum of 8-0 Str^R and 110 Tet^R. In general, mixed inoculations resulted in nodules with a particular strain being dominant for each individual plant. Double infections within individual nodules were not uncommon and such nodules often had disproportionate numbers of cells of two competingR. japonicum strains.Contribution from the Laboratory of Soil Microbiology, Department of Agronomy, Missouri Agricultural Experiment Station. Missouri Journal Series Number 7967.