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3. Effect of phosphorus limiting on phytase activity, proton efflux and oxygen consumption by nodulated-roots of common bean (Phaseolus vulgaris)

Author

Kouas, S., Ahmed Debez, Plassard, C., Drevon, J. J., Abdelly, C., Centre de Biotechnologie de Borj Cedria (CBBC), Ecologie Fonctionnelle et Biogéochimie des Sols (Eco&Sols), Institut National de la Recherche Agronomique (INRA)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Ecole Nationale Supérieure Agronomique de Montpellier (ENSA M), Grain Legumes Integrated Project (GLIP), and ProdInra, Migration

Subjects
[SDV.SA]Life Sciences [q-bio]/Agricultural sciences, [SDV.SA] Life Sciences [q-bio]/Agricultural sciences, organic phosphorus, proton efflux, phytase activity, diffusion, food and beverages, soybean nodules, nodulated root oxygen, tobacco nicotiana-tabacum, n-2 fixation, phosphorus use efficiency for symbiotic nitrogen fixation, symbiotic nitrogen-fixation, p-deficiency, bean, phosphorus, phytase activity, proton efflux, nodulated root oxygen consumption, phosphorus use efficiency for symbiotic nitrogen fixation, bean, acid-phosphatases, consumption, phosphorus, legume nodules, alfalfa
Abstract

Publication Inra prise en compte dans l'analyse bibliométrique des publications scientifiques mondiales sur les Fruits, les Légumes et la Pomme de terre. Période 2000-2012. http://prodinra.inra.fr/record/256699; International audience; This work intended to measure the nodulated-roots oxygen consumption, proton efflux and phytase activity in 2 lines of common bean (Phaseolus vulgaris) (115, 147) at 2 levels of P supply. Rooted seedlings were inoculated with Rhizobium tropici CIAT 899 in hydroaeroponic cultivation under glasshouse. Phosphorus was supplied as KH(2)PO(4) at 15 and 250 mu mol pl(-1) week(-1) (15P and 250P, respectively). Our results showed that plant growth nodulation and symbiotic nitrogen fixation were significantly affected by P limiting (15P) for the both lines, but this adverse effect was more pronounced in 147 than in 115. For the both lines, the phytase activity, higher in roots than in nodules, was significantly increased by P limiting, but 115 maintained higher values as compared to 147 line. In cotyledons, the phytase activity was higher in 115 than in 147. Phosphorus shortage increased the cumulated proton release only in 115, whereas it was lowered for 147. In this line, the proton release was linked to symbiotic nitrogen fixation. Under 15P, the proton efflux per unit of nodulated-root biomass was 25% greater for 115 than 147, suggesting that under P limitation, proton efflux may constitute an efficient way to increase P uptake in the tolerant line (115). 15P increased significantly nodulated-root O(2) consumption per g nodule DW and nodule conductance, but to a higher extent in 147. As a whole, bean plants at P-deficient conditions increased the activity of phytases and proton efflux, thus maintaining the oxygen diffusion in nodules. This may represent an adaptive mechanism for N(2)-fixing legumes to respond to P deficiency, by increasing the utilisation and the uptake of phosphorus for symbiotic nitrogen fixation.

Published
2009

6. Halotolerant phosphate solubilizing bacteria isolated from arid area in Tunisia improve P status and photosynthetic activity of cultivated barley under P shortage.

Author

Kouas S, Djedidi S, Ben Slimene Debez I, Sbissi I, Alyami NM, and Hirsch AM

Abstract

Forty-seven (47) bacterial strains were isolated from soil of Gabes (an arid region in southern Tunisia) and were screened for their ability to produce Indole-3-Acetic Acid (IAA) and to solubilize phosphate (P). The characterization and molecular identification of the most successful P-solubilizing bacteria (PSB) were then carried out. When grown on suitable artificial media, the most salt-tolerant strains also showed the highest P solubilization capacity (up to 126.8 μg ml -1 of released phosphorus after 7 day incubation) and the strongest ability to produce IAA (up to 101.86 μg ml -1 after 3 day incubation). Overall, bacterial isolates displayed a different tolerance to varying pH, temperatures, and salinity. The molecular identification revealed that 11 strains belonged to three genera: Bacillus , Pseudomonas and Mesorhizobium . Inoculation of barley with P-solubilizing bacteria under tricalcium phosphate-induced P shortage significantly improved plant growth (biomass, shoot height, and root length) together with increasing total chlorophyll contents and photosynthetic activity. This was concomitant with (i) higher P uptake and translocation and (ii) increased phosphorus absorption and utilization efficiencies (PAE and PUE), which is indicative of a better plant P nutrition under P scarcity. Taken together, we provide strong arguments showing that bacteria native to extreme environments display PSB potential making them promising candidates to mitigate low Pi availability for crop plants., Competing Interests: The authors declare no competing interests.The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors. Published by Elsevier Ltd.)

Published
2024
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7. The increase in O2 nodule-conductance under phosphorus deficiency varies among genotypes in Medicago truncatula.

Author

Aydi S, Kouas S, Sassi Aydi S, Rahmani R, and Abdelly C

Subjects
Phosphorus, Genotype, Oxygen, Root Nodules, Plant genetics, Medicago truncatula genetics
Abstract

The effect of phosphorus deficiency on plant growth, nodulation, and symbiotic nitrogen fixation as well as, the nodulated-roots oxygen consumption, nodule permeability and conductance to the oxygen diffusion of Medicago truncatula-Sinorhizobium meliloti symbiosis were studied. Three lines, namely TN6.18, originated from local populations, F83005.5 originated from Var (France) and Jemalong 6, a reference cultivar from Australia, were hydroponically grown in nutrient solution supplied with 5 µmol (P deficient) and 15 µmol (P sufficient: Control), under semi-controlled conditions in a glasshouse. A genotypic variation in tolerance to P deficiency was found: TN6.18 was the most tolerant line whereas F83005.5 was the most sensitive. The relative tolerance of TN6.18 was concomitant with the greater P requirement, the higher N2 fixation, the stimulation of nodule respiration and the less increases of conductance to the oxygen diffusion in nodules tissues. The higher P use efficiency for nodule growth and for symbiotic nitrogen fixation was detected in the tolerant line. Results suggest that the tolerance to P deficiency seems to depend on thehost plant ability to reallocate P from both leaves and roots to their nodules. P is needed in high energy demand conditions to maintain adequate nodule activity and prevent negative effects of the O2 excess on the nitrogenase.

Published
2022
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8. [COVID-19 infection in pregnancy: about a case].

Author

Kouas S, Zoukar O, Ikridih K, Mahdhi S, Belghaieb I, and Haddad A

Subjects
Adult, Female, Humans, Pregnancy, COVID-19 diagnosis, COVID-19 therapy, Pregnancy Complications, Infectious diagnosis, Pregnancy Complications, Infectious therapy
Abstract

The recent COVID-19 pandemic has led to an unprecedented global health crisis. The susceptibility of pregnant women to infections has raised many questions about the risk of transmission, teratogenic risk and maternal and fetal complications. The speed at which the infection advanced as well as the ambiguity effects on pregnancy, due to the absence of scientific data, led obstetricians to adapt their practice according to pragmatic approach. We focused on this subject declared by the WHO as a global pandemic in early March 2020 to develop a plan for obstetric management of SARS-CoV-2 infected patients on the basis of current data. Based on the literature and the case of a patient hospitalized in our Department of Gynecology in Mahdia, the purpose of this study was to describe the possible clinical manifestations of COVID-19 infection in pregnant women and to develop principles of management of patients with COVID-19 infection., Competing Interests: Les auteurs ne déclarent aucun conflit d´intérêts., (Copyright: Sofiane Kouas et al.)

Published
2020
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9. Genetic variability of morpho-physiological response to phosphorus deficiency in Tunisian populations of Brachypodium hybridum.

Author

Neji M, Kouas S, Gandour M, Aydi S, and Abdelly C

Subjects
Brachypodium physiology, Gene Regulatory Networks genetics, Gene Regulatory Networks physiology, Phosphorus metabolism, Brachypodium genetics, Genetic Variation genetics, Phosphorus deficiency
Abstract

Brachypodium hybridum (Poaceae) is widely distributed in the dry environments in Mediterranean basin, due to its high tolerance to drought. Investigating the natural variation of B. hybridum in response to environmental stresses is crucial for unraveling the genetic network of its stress tolerance. 79 B. hybridum lines from eight Tunisian populations were screened for their performance to low P availability using morpho-physiological parameters. ANOVA showed that treatment and population*treatment factors were the most contributors in the explained variance for the majority of parameters. A considerable population differentiation was detected in control and under P level (Qst = 0.77 vs Qst = 0.62). This suggests that B. hybridum exhibit an adaptive differential response to P deficiency related environmental conditions. Results revealed that Raouad and Sejnen lines were the most tolerant to P deficiency followed by Haouaria and Enfidha lines. The remaining populations were classified as sensitive. This pattern suggests that coastal populations were more tolerant to P deficiency than the inland ones. A slightly higher heritability was evidenced under low P level for most of traits, indicating that the direct selection under P deficiency is more reliable than an indirect one under optimal P supply., (Copyright © 2019 Elsevier Masson SAS. All rights reserved.)

Published
2019
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10. Insights into the physiological responses of the facultative halophyte Aeluropus littoralis to the combined effects of salinity and phosphorus availability.

Author

Talbi Zribi O, Barhoumi Z, Kouas S, Ghandour M, Slama I, and Abdelly C

Subjects
Chlorides metabolism, Osmosis, Plant Leaves drug effects, Plant Leaves physiology, Plant Roots drug effects, Plant Roots physiology, Plant Shoots drug effects, Plant Shoots physiology, Poaceae drug effects, Potassium metabolism, Proline metabolism, Salinity, Salt Tolerance drug effects, Salt-Tolerant Plants, Sodium metabolism, Water physiology, Phosphorus deficiency, Poaceae physiology, Sodium Chloride pharmacology, Stress, Physiological
Abstract

In this work, we investigate the physiological responses to P deficiency (5μM KH2PO4=D), salt stress (400mM NaCl=C+S), and their combination (D+S) on the facultative halophyte Aeluropus littoralis to understand how plants adapt to these combined stresses. When individually applied, both P deficiency and salinity significantly restricted whole plant growth, with a more marked effect of the latter stress. However, the effects of the two stresses were not additive in plant biomass production since the response of plants to combined salinity and P deficiency was similar to that of plants grown under salt stress alone. In addition the observed features under salinity alone are kept when plants are simultaneously subjected to the combined effects of salinity and P deficiency such as biomass partitioning; the synthesis of proline and the K(+)/Na(+) selectivity ratio. Thus, increasing P availability under saline conditions has no significant effect on salt tolerance in this species. Plants cultivated under the combined effects of salinity and P deficiency exhibited the lowest leaf water potential. This trend was associated with a high accumulation of Na(+), Cl(-) and proline in shoots of salt treated plants suggesting the involvement of these solutes in osmotic adjustment. Proline could be involved in other physiological processes such as free radical scavenging. Furthermore, salinity has no significant effect on phosphorus acquisition when combined with a low P supply and it significantly decreased this parameter when combined with a sufficient P supply. This fact was probably due to salt's effect on P transporters. In addition, shoot soluble sugars accumulation under both P deficiency treatments with and without salt likely play an important role in the adaptation of A. littoralis plants to P shortage applied alone or combined with salinity. Moreover, there was a strong correlation between shoot and root intracellular acid phosphatase activity and phosphorus use efficiency which strengthens the assumption that intracellular acid phosphatase enzymes are involved in P remobilization in this species. Finally, our results showed that P availability has no significant effect on salt excretion in A. littorlais which suggests that independently of the P status in the plant, excretion remains priority over other functions requiring energy such as growth. This result could also indicate that salt excretion is not energy-dependent in this species., (Copyright © 2015 Elsevier GmbH. All rights reserved.)

Published
2015
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11. The role of nodules in the tolerance of common bean to iron deficiency.

Author

Slatni T, Ben Salah I, Kouas S, and Abdelly C

Subjects
Absorption, Physiological, Acids metabolism, Chlorophyll metabolism, Kinetics, Nitrogen Fixation, Oxidoreductases metabolism, Phaseolus enzymology, Phaseolus growth & development, Plant Leaves metabolism, Root Nodules, Plant growth & development, Adaptation, Physiological, Iron Deficiencies, Phaseolus physiology, Root Nodules, Plant physiology
Abstract

Iron is vital for the establishment and function of symbiotic root nodules of legumes. Although abundant in the environment, Fe is often a limiting nutrient for plant growth due to its low solubility and availability in some soils. We have studied the mechanism of iron uptake in the root nodules of common bean to evaluate the role of nodules in physiological responses to iron deficiency. Based on experiments using full or partial submergence of nodulated roots in the nutrient solution, our results show that the nodules were affected only slightly under iron deficiency, especially when the nodules were submerged in nutrient solution in the tolerant cultivar. In addition, fully submerged root nodules showed enhanced acidification of the nutrient solution and showed higher ferric chelate reductase activity than that of partially submerged roots in plants cultivated under Fe deficiency. The main results obtained in this work suggest that in addition to preferential Fe allocation from the root system to the nodules, this symbiotic organ probably develops some mechanisms to respond to iron deficiency. These mechanisms were implied especially in nodule Fe absorption efficiency and in the ability of this organ to take up Fe directly from the medium.

Published
2014
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12. Metabolic changes of iron uptake in N(2)-fixing common bean nodules during iron deficiency.

Author

Slatni T, Vigani G, Salah IB, Kouas S, Dell'Orto M, Gouia H, Zocchi G, and Abdelly C

Subjects
Biological Transport, Carboxylic Acids analysis, Ferric Compounds metabolism, Gene Expression Regulation, Plant, Genotype, Iron analysis, Iron metabolism, Nitrogen metabolism, Nitrogen Fixation, Phaseolus enzymology, Phaseolus genetics, Phosphoenolpyruvate Carboxylase genetics, Plant Diseases, Proton-Translocating ATPases metabolism, Root Nodules, Plant enzymology, Root Nodules, Plant genetics, Root Nodules, Plant metabolism, Symbiosis, FMN Reductase metabolism, Iron Deficiencies, Iron-Regulatory Proteins metabolism, Phaseolus metabolism, Phosphoenolpyruvate Carboxylase metabolism, Plant Proteins metabolism
Abstract

Iron is an important nutrient in N(2)-fixing legume nodules. The demand for this micronutrient increases during the symbiosis establishment, where the metal is utilized for the synthesis of various iron-containing proteins in both the plant and the bacteroid. Unfortunately, in spite of its importance, iron is poorly available to plant uptake since its solubility is very low when in its oxidized form Fe(III). In the present study, the effect of iron deficiency on the activity of some proteins involved in Strategy I response, such as Fe-chelate reductase (FC-R), H(+)-ATPase, and phosphoenolpyruvate carboxylase (PEPC) and the protein level of iron regulated transporter (IRT1) and H(+)-ATPase proteins has been investigated in both roots and nodules of a tolerant (Flamingo) and a susceptible (Coco blanc) cultivar of common bean plants. The main results of this study show that the symbiotic tolerance of Flamingo can be ascribed to a greater increase in the FC-R and H(+)-ATPase activities in both roots and nodules, leading to a more efficient Fe supply to nodulating tissues. The strong increase in PEPC activity and organic acid content, in the Flamingo root nodules, suggests that under iron deficiency nodules can modify their metabolism in order to sustain those activities necessary to acquire Fe directly from the soil solution., (Copyright © 2011 Elsevier Ireland Ltd. All rights reserved.)

Published
2011
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