Transcriptomic Response of Rhizobium leguminosarum to Acidic Stress and Nutrient Limitation Is Versatile and Substantially Influenced by Extrachromosomal Gene Pool

Żebracki, Kamil; Koper, Piotr; Wójcik, Magdalena; Marczak, Małgorzata; Mazur, Andrzej

doi:10.3390/ijms252111734

IJMS

2024

DOI: 10.3390/ijms252111734

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Transcriptomic Response of Rhizobium leguminosarum to Acidic Stress and Nutrient Limitation Is Versatile and Substantially Influenced by Extrachromosomal Gene Pool

Kamil Żebracki,

Piotr Koper,

Magdalena Wójcik

et al.

Abstract: Multipartite genomes are thought to confer evolutionary advantages to bacteria by providing greater metabolic flexibility in fluctuating environments and enabling rapid adaptation to new ecological niches and stress conditions. This genome architecture is commonly found in plant symbionts, including nitrogen-fixing rhizobia, such as Rhizobium leguminosarum bv. trifolii TA1 (RtTA1), whose genome comprises a chromosome and four extrachromosomal replicons (ECRs). In this study, the transcriptomic responses of RtT… Show more

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Genomic Insights and Plant Growth-Promoting Potential of Rhizobial Strains from Agave americana

García-Pérez,

Rincón-Molina,

Martínez-Romero

et al. 2024

Horticulturae

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Symbiotic relationships between plants and bacteria play a pivotal role in both natural and agricultural ecosystems, particularly through endophytic colonization or rhizospheric interactions. This study evaluated the plant growth-promoting potential (PGP) of native rhizobial strains Rhizobium sp. ACO-34A and Mesorhizobium sp. 28A (now reclassified within the genus Kumtagia), isolated from Agave americana. Through phenotypic characterization, PGP evaluation, and comparative genomic analysis, both strains demonstrated the ability to thrive under diverse salinity levels and pH conditions, reflecting their adaptability to challenging environments. Rhizobium sp. ACO-34A exhibited superior resistance to antibiotics and heavy metals, coupled with robust PGP traits, such as phosphate solubilization and indole-3-acetic acid (IAA) production, which are crucial for enhancing nutrient availability and root development. Similarly, Mesorhizobium sp. 28A showed exceptional phosphate solubilization efficiency and contributed to improved seedling performance. These findings highlight the capacity of rhizobia associated with agave species to improve plant growth, reduce dependence on chemical fertilizers, and support sustainable agriculture, particularly in nutrient-depleted or semi-arid soils. Genomic analyses revealed the presence of genes linked to stress resilience and nutrient acquisition, underlining the functional versatility of these strains. By leveraging these native rhizobial strains, agricultural practices can achieve higher productivity and sustainability, making them valuable tools for enhancing the agronomic yield and ecological resilience of agave crops for agro-industries.

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Genomic Insights and Plant Growth-Promoting Potential of Rhizobial Strains from Agave americana

García-Pérez,

Rincón-Molina,

Martínez-Romero

et al. 2024

Horticulturae

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show abstract

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Transcriptomic Response of Rhizobium leguminosarum to Acidic Stress and Nutrient Limitation Is Versatile and Substantially Influenced by Extrachromosomal Gene Pool

Cited by 1 publication

References 101 publications

Genomic Insights and Plant Growth-Promoting Potential of Rhizobial Strains from Agave americana

Genomic Insights and Plant Growth-Promoting Potential of Rhizobial Strains from Agave americana

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