Symbiotic efficiency of Rhizobium leguminosarum sv. trifolii strains originating from the subpolar and temperate climate regions

Red clover ( Trifolium pratense L.) is a forage legume cultivated worldwide. This plant is capable of establishing a nitrogen-fixing symbiosis with Rhizobium leguminosarum symbiovar trifolii strains . To date, no comparative analysis of the symbiotic properties and heterogeneity of T. pratense micro...

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Published in:Scientific reports 2024-03, Vol.14 (1), p.6264-6264, Article 6264
Main Authors: Janczarek, Monika, Kozieł, Marta, Adamczyk, Paulina, Buczek, Katarzyna, Kalita, Michał, Gromada, Anna, Mordzińska-Rak, Aleksandra, Polakowski, Cezary, Bieganowski, Andrzej
Format: Article
Language:English
Subjects:
631/326
704/172
Alleles
Climatic zones
Comparative analysis
Crop production
Cultivation
DNA, Bacterial - genetics
Fabaceae - genetics
Genotypes
Grain cultivation
Heterogeneity
Host plants
Humanities and Social Sciences
Legumes
multidisciplinary
NifH gene
Nitrogen Fixation
Nodulation
Phylogeny
Rhizobium - genetics
Rhizobium leguminosarum
Rhizobium leguminosarum - genetics
Science
Science (multidisciplinary)
Strains (organisms)
Symbiosis
Symbiosis - genetics
Trifolium - genetics
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Summary:Red clover ( Trifolium pratense L.) is a forage legume cultivated worldwide. This plant is capable of establishing a nitrogen-fixing symbiosis with Rhizobium leguminosarum symbiovar trifolii strains . To date, no comparative analysis of the symbiotic properties and heterogeneity of T. pratense microsymbionts derived from two distinct geographic regions has been performed. In this study, the symbiotic properties of strains originating from the subpolar and temperate climate zones in a wide range of temperatures (10–25 °C) have been characterized. Our results indicate that all the studied T. pratense microsymbionts from two geographic regions were highly efficient in host plant nodulation and nitrogen fixation in a wide range of temperatures. However, some differences between the populations and between the strains within the individual population examined were observed. Based on the nodC and nifH sequences, the symbiotic diversity of the strains was estimated. In general, 13 alleles for nodC and for nifH were identified. Moreover, 21 and 61 polymorphic sites in the nodC and nifH sequences were found, respectively, indicating that the latter gene shows higher heterogeneity than the former one. Among the nodC and nifH alleles, three genotypes (I–III) were the most frequent, whereas the other alleles (IV–XIII) proved to be unique for the individual strains. Based on the nodC and nifH allele types, 20 nodC-nifH genotypes were identified. Among them, the most frequent were three genotypes marked as A (6 strains), B (5 strains), and C (3 strains). Type A was exclusively found in the temperate strains, whereas types B and C were identified in the subpolar strains. The remaining 17 genotypes were found in single strains. In conclusion, our data indicate that R. leguminosarum sv. trifolii strains derived from two climatic zones show a high diversity with respect to the symbiotic efficiency and heterogeneity. However, some of the R. leguminosarum sv. trifolii strains exhibit very good symbiotic potential in the wide range of the temperatures tested; hence, they may be used in the future for improvement of legume crop production.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-024-56988-1