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. 2015 Jan 14:5:793.
doi: 10.3389/fmicb.2014.00793. eCollection 2014.

Genes encoding conserved hypothetical proteins localized in the conjugative transfer region of plasmid pRet42a from Rhizobium etli CFN42 participate in modulating transfer and affect conjugation from different donors

Eunice López-Fuentes  1 Gonzalo Torres-Tejerizo  1 Laura Cervantes  1 Susana Brom  1
Affiliations

Genes encoding conserved hypothetical proteins localized in the conjugative transfer region of plasmid pRet42a from Rhizobium etli CFN42 participate in modulating transfer and affect conjugation from different donors

Eunice López-Fuentes et al. Front Microbiol. .

Abstract

Among sequenced genomes, it is common to find a high proportion of genes encoding proteins that cannot be assigned a known function. In bacterial genomes, genes related to a similar function are often located in contiguous regions. The presence of genes encoding conserved hypothetical proteins (chp) in such a region may suggest that they are related to that particular function. Plasmid pRet42a from Rhizobium etli CFN42 is a conjugative plasmid containing a segment of approximately 30 Kb encoding genes involved in conjugative transfer. In addition to genes responsible for Dtr (DNA transfer and replication), Mpf (Mating pair formation) and regulation, it has two chp-encoding genes (RHE_PA00163 and RHE_PA00164) and a transcriptional regulator (RHE_PA00165). RHE_PA00163 encodes an uncharacterized protein conserved in bacteria that presents a COG4634 conserved domain, and RHE_PA00164 encodes an uncharacterized conserved protein with a DUF433 domain of unknown function. RHE_PA00165 presents a HTH_XRE domain, characteristic of DNA-binding proteins belonging to the xenobiotic response element family of transcriptional regulators. Interestingly, genes similar to these are also present in transfer regions of plasmids from other bacteria. To determine if these genes participate in conjugative transfer, we mutagenized them and analyzed their conjugative phenotype. A mutant in RHE_PA00163 showed a slight (10 times) but reproducible increase in transfer frequency from Rhizobium donors, while mutants in RHE_PA00164 and RHE_PA00165 lost their ability to transfer the plasmid from some Agrobacterium donors. Our results indicate that the chp-encoding genes located among conjugation genes are indeed related to this function. However, the participation of RHE_PA00164 and RHE_PA00165 is only revealed under very specific circumstances, and is not perceived when the plasmid is transferred from the original host. RHE_PA00163 seems to be a fine-tuning modulator for conjugative transfer.

Keywords: conjugation; hypothetical proteins; quorum-sensing; rhizobia; transcriptional regulation.

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Figures

Figure 1
Figure 1
Organization of the genetic regions localized next to XRE regulators. (A) Comparison of the transfer regions, including the Dtr and Mpf genes. Orthologs are marked with the same color. Important traits are highlighted. Green, Blue, and Red-tones indicate Replication, Mpf and Dtr genes, respectively. Gray arrows indicate regulatory genes and empty arrows hypothetical protein encoding genes. (B) Zoom-in showing the organization of genes located between traH and traM of pRet42a and pSfr64a.
Figure 2
Figure 2
Organisms that present homologs to hypothetical orfs. (A) From R. etli CFN42. (B) From S. fredii GR64. Homologs were searched for by BLASTP, The number of hits and the percent over the total hits are shown in parenthesis.
Figure 3
Figure 3
Phylogenetic relationship of XRE-type regulators. The phylogenetic tree was based on the XRE-type regulators. Analyses were conducted by means of the Maximum Likelihood method. Arrows indicate the XRE regulators from pRet42a and pSfr64a. The locus tag and accession numbers are shown in parenthesis. Bootstrap values higher that 50 are shown at the nodes. Bar indicates substitution/site.
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