Please use this identifier to cite or link to this item: https://hdl.handle.net/20.500.14279/32678
Title: Impact of two Erwinia sp. on the response of diverse Pisum sativum genotypes under salt stress
Authors: Ilahi, Houda 
Zampieri, Elisa 
Sbrana, Cristiana 
Brescia, Francesca 
Giovannini, Luca 
Mahmoudi, Roghayyeh 
Gohari, Gholamreza 
El Idrissi, Mustapha Missbah 
Alfeddy, Mohamed Najib 
Schillaci, Martino 
Ouahmane, Lahcen 
Calvo, Alice 
Sillo, Fabiano 
Fotopoulos, Vasileios 
Balestrini, Raffaella 
Mnasri, Bacem 
Major Field of Science: Agricultural Sciences
Field Category: Chemical Sciences
Keywords: 16S rRNA/DNA;Abiotic stress;Biochemical markers;Pea; RT-qPCR
Issue Date: Feb-2024
Source: Physiology and molecular biology of plants : an international journal of functional plant biology, 2024, vol 30, no 2
Volume: 30
Issue: 2
Journal: Physiology and molecular biology of plants : an international journal of functional plant biology 
Abstract: Currently, salinization is impacting more than 50% of arable land, posing a significant challenge to agriculture globally. Salt causes osmotic and ionic stress, determining cell dehydration, ion homeostasis, and metabolic process alteration, thus negatively influencing plant development. A promising sustainable approach to improve plant tolerance to salinity is the use of plant growth-promoting bacteria (PGPB). This work aimed to characterize two bacterial strains, that have been isolated from pea root nodules, initially called PG1 and PG2, and assess their impact on growth, physiological, biochemical, and molecular parameters in three pea genotypes (Merveille de Kelvedon, Lincoln, Meraviglia d'Italia) under salinity. Bacterial strains were molecularly identified, and characterized by in vitro assays to evaluate the plant growth promoting abilities. Both strains were identified as Erwinia sp., demonstrating in vitro biosynthesis of IAA, ACC deaminase activity, as well as the capacity to grow in presence of NaCl and PEG. Considering the inoculation of plants, pea biometric parameters were unaffected by the presence of the bacteria, independently by the considered genotype. Conversely, the three pea genotypes differed in the regulation of antioxidant genes coding for catalase (PsCAT) and superoxide dismutase (PsSOD). The highest proline levels (212.88 μmol g-1) were detected in salt-stressed Lincoln plants inoculated with PG1, along with the up-regulation of PsSOD and PsCAT. Conversely, PG2 inoculation resulted in the lowest proline levels that were observed in Lincoln and Meraviglia d'Italia (35.39 and 23.67 μmol g-1, respectively). Overall, this study highlights the potential of these two strains as beneficial plant growth-promoting bacteria in saline environments, showing that their inoculation modulates responses in pea plants, affecting antioxidant gene expression and proline accumulation.
Description: The current study reveals that two non-pathogenic strains of Erwinia sp. are diferent in their PGP traits. By using an integrated approach, a picture of the pea plant status in three genotypes subjected to a salt stress condition was obtained and the role of the two bacterial considered Erwinia sp. strains has been highlighted. Results showed the relevance of plant genotype in determining the response to bacterial inoculants as well as the diferences in the plant mechanisms activated to cope with the stress in the diferent plant/strain combination. Overall, this study emphasizes the importance of understanding the molecular and biochemical processes occurring in plant–microbe interactions at genotype level, and the influence on plant responses to environmental stresses. Further analyses are needed to clarify the behaviour of the three genotypes, such as the leaf water potential, and to verify the efects of the bacterial inoculation in feld conditions, subjectd by an increased environmental unpredictability due to the climate change scenario
URI: https://hdl.handle.net/20.500.14279/32678
ISSN: 0971-5894
DOI: 10.1007/s12298-024-01419-8
Rights: Attribution-NonCommercial-NoDerivatives 4.0 International
Type: Article
Affiliation : University Tunis El Manar 
Centre of Biotechnology of Borj-Cédria 
CNR - National Research Council of Italy 
Cyprus University of Technology 
Institute of Agricultural Biology and Biotechnology (IBBA) 
Institute for Sustainable Plant Protection (IPSP) 
Mohammed V University in Rabat 
Publication Type: Peer Reviewed
Appears in Collections:Άρθρα/Articles

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