BMC Genomics (Dec 2012)

Genomic basis of broad host range and environmental adaptability of <it>Rhizobium tropici</it> CIAT 899 and <it>Rhizobium</it> sp. PRF 81 which are used in inoculants for common bean (<it>Phaseolus vulgaris</it> L.)

  • Ormeño-Orrillo Ernesto,
  • Menna Pâmela,
  • Almeida Luiz Gonzaga P,
  • Ollero Francisco Javier,
  • Nicolás Marisa Fabiana,
  • Pains Rodrigues Elisete,
  • Shigueyoshi Nakatani Andre,
  • Silva Batista Jesiane Stefânia,
  • Oliveira Chueire Ligia Maria,
  • Souza Rangel Celso,
  • Ribeiro Vasconcelos Ana Tereza,
  • Megías Manuel,
  • Hungria Mariangela,
  • Martínez-Romero Esperanza

DOI
https://doi.org/10.1186/1471-2164-13-735
Journal volume & issue
Vol. 13, no. 1
p. 735

Abstract

Read online

Abstract Background Rhizobium tropici CIAT 899 and Rhizobium sp. PRF 81 are α-Proteobacteria that establish nitrogen-fixing symbioses with a range of legume hosts. These strains are broadly used in commercial inoculants for application to common bean (Phaseolus vulgaris) in South America and Africa. Both strains display intrinsic resistance to several abiotic stressful conditions such as low soil pH and high temperatures, which are common in tropical environments, and to several antimicrobials, including pesticides. The genetic determinants of these interesting characteristics remain largely unknown. Results Genome sequencing revealed that CIAT 899 and PRF 81 share a highly-conserved symbiotic plasmid (pSym) that is present also in Rhizobium leucaenae CFN 299, a rhizobium displaying a similar host range. This pSym seems to have arisen by a co-integration event between two replicons. Remarkably, three distinct nodA genes were found in the pSym, a characteristic that may contribute to the broad host range of these rhizobia. Genes for biosynthesis and modulation of plant-hormone levels were also identified in the pSym. Analysis of genes involved in stress response showed that CIAT 899 and PRF 81 are well equipped to cope with low pH, high temperatures and also with oxidative and osmotic stresses. Interestingly, the genomes of CIAT 899 and PRF 81 had large numbers of genes encoding drug-efflux systems, which may explain their high resistance to antimicrobials. Genome analysis also revealed a wide array of traits that may allow these strains to be successful rhizosphere colonizers, including surface polysaccharides, uptake transporters and catabolic enzymes for nutrients, diverse iron-acquisition systems, cell wall-degrading enzymes, type I and IV pili, and novel T1SS and T5SS secreted adhesins. Conclusions Availability of the complete genome sequences of CIAT 899 and PRF 81 may be exploited in further efforts to understand the interaction of tropical rhizobia with common bean and other legume hosts.

Keywords