{"database":"biostudies-literature","file_versions":[],"scores":null,"additional":{"omics_type":["Unknown"],"volume":["13"],"submitter":["Eardly B"],"pubmed_abstract":["Although <i>Medicago sativa</i> forms highly effective symbioses with the comparatively acid-sensitive genus <i>Ensifer</i>, its introduction into acid soils appears to have selected for symbiotic interactions with acid-tolerant <i>R. favelukesii</i> strains. <i>Rhizobium favelukesii</i> has the unusual ability of being able to nodulate and fix nitrogen, albeit sub-optimally, not only with <i>M. sativa</i> but also with the promiscuous host <i>Phaseolus vulgaris</i>. Here we describe the genome of <i>R. favelukesii</i> OR191 and genomic features important for the symbiotic interaction with both of these hosts. The OR191 draft genome contained acid adaptation loci, including the highly acid-inducible <i>lpiA</i>/<i>acvB</i> operon and <i>olsC</i>, required for production of lysine- and ornithine-containing membrane lipids, respectively. The <i>olsC</i> gene was also present in other acid-tolerant <i>Rhizobium</i> strains but absent from the more acid-sensitive <i>Ensifer</i> microsymbionts. The OR191 symbiotic genes were in general more closely related to those found in <i>Medicago</i> microsymbionts. OR191 contained the <i>nodA</i>, <i>nodEF, nodHPQ</i>, and <i>nodL</i> genes for synthesis of polyunsaturated, sulfated and acetylated Nod factors that are important for symbiosis with <i>Medicago</i>, but contained a truncated <i>nodG</i>, which may decrease nodulation efficiency with <i>M. sativa</i>. OR191 contained an <i>E. meliloti</i> type BacA, which has been shown to specifically protect <i>Ensifer</i> microsymbionts from <i>Medicago</i> nodule-specific cysteine-rich peptides. The nitrogen fixation genes <i>nifQWZS</i> were present in OR191 and <i>P. vulgaris</i> microsymbionts but absent from <i>E. meliloti-Medicago</i> microsymbionts. The ability of OR191 to nodulate and fix nitrogen symbiotically with <i>P. vulgaris</i> indicates that this host has less stringent requirements for nodulation than <i>M. sativa</i> but may need rhizobial strains that possess <i>nifQWZS</i> for N<sub>2</sub>-fixation to occur. OR191 possessed the <i>exo</i> genes required for the biosynthesis of succinoglycan, which is required for the <i>Ensifer-Medicago</i> symbiosis. However, <sup>1</sup>H-NMR spectra revealed that, in the conditions tested, OR191 exopolysaccharide did not contain a succinyl substituent but instead contained a 3-hydroxybutyrate moiety, which may affect its symbiotic performance with <i>Medicago</i> hosts. These findings provide a foundation for the genetic basis of nodulation requirements and symbiotic effectiveness with different hosts."],"journal":["Frontiers in microbiology"],"pagination":["735911"],"full_dataset_link":["https://www.ebi.ac.uk/biostudies/studies/S-EPMC9048898"],"repository":["biostudies-literature"],"pubmed_title":["The Genome of the Acid Soil-Adapted Strain <i>Rhizobium favelukesii</i> OR191 Encodes Determinants for Effective Symbiotic Interaction With Both an Inverted Repeat Lacking Clade and a Phaseoloid Legume Host."],"pmcid":["PMC9048898"],"pubmed_authors":["Reeve W","Meor Osman WA","Loedolff M","Seshadri R","Woyke T","van Berkum P","Reddy TBK","Ardley J","Elia P","Zandberg J","Eardly B","Pati A","Gollagher M","Kyrpides N","Marinova D","Laird DW","Ivanova N"],"additional_accession":[]},"is_claimable":false,"name":"The Genome of the Acid Soil-Adapted Strain <i>Rhizobium favelukesii</i> OR191 Encodes Determinants for Effective Symbiotic Interaction With Both an Inverted Repeat Lacking Clade and a Phaseoloid Legume Host.","description":"Although <i>Medicago sativa</i> forms highly effective symbioses with the comparatively acid-sensitive genus <i>Ensifer</i>, its introduction into acid soils appears to have selected for symbiotic interactions with acid-tolerant <i>R. favelukesii</i> strains. <i>Rhizobium favelukesii</i> has the unusual ability of being able to nodulate and fix nitrogen, albeit sub-optimally, not only with <i>M. sativa</i> but also with the promiscuous host <i>Phaseolus vulgaris</i>. Here we describe the genome of <i>R. favelukesii</i> OR191 and genomic features important for the symbiotic interaction with both of these hosts. The OR191 draft genome contained acid adaptation loci, including the highly acid-inducible <i>lpiA</i>/<i>acvB</i> operon and <i>olsC</i>, required for production of lysine- and ornithine-containing membrane lipids, respectively. The <i>olsC</i> gene was also present in other acid-tolerant <i>Rhizobium</i> strains but absent from the more acid-sensitive <i>Ensifer</i> microsymbionts. The OR191 symbiotic genes were in general more closely related to those found in <i>Medicago</i> microsymbionts. OR191 contained the <i>nodA</i>, <i>nodEF, nodHPQ</i>, and <i>nodL</i> genes for synthesis of polyunsaturated, sulfated and acetylated Nod factors that are important for symbiosis with <i>Medicago</i>, but contained a truncated <i>nodG</i>, which may decrease nodulation efficiency with <i>M. sativa</i>. OR191 contained an <i>E. meliloti</i> type BacA, which has been shown to specifically protect <i>Ensifer</i> microsymbionts from <i>Medicago</i> nodule-specific cysteine-rich peptides. The nitrogen fixation genes <i>nifQWZS</i> were present in OR191 and <i>P. vulgaris</i> microsymbionts but absent from <i>E. meliloti-Medicago</i> microsymbionts. The ability of OR191 to nodulate and fix nitrogen symbiotically with <i>P. vulgaris</i> indicates that this host has less stringent requirements for nodulation than <i>M. sativa</i> but may need rhizobial strains that possess <i>nifQWZS</i> for N<sub>2</sub>-fixation to occur. OR191 possessed the <i>exo</i> genes required for the biosynthesis of succinoglycan, which is required for the <i>Ensifer-Medicago</i> symbiosis. However, <sup>1</sup>H-NMR spectra revealed that, in the conditions tested, OR191 exopolysaccharide did not contain a succinyl substituent but instead contained a 3-hydroxybutyrate moiety, which may affect its symbiotic performance with <i>Medicago</i> hosts. These findings provide a foundation for the genetic basis of nodulation requirements and symbiotic effectiveness with different hosts.","dates":{"release":"2022-01-01T00:00:00Z","publication":"2022","modification":"2026-05-31T06:04:46.911Z","creation":"2025-02-19T01:55:35.83Z"},"accession":"S-EPMC9048898","cross_references":{"pubmed":["35495676"],"doi":["10.3389/fmicb.2022.735911"]}}