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. 2013 Dec 6:14:859.
doi: 10.1186/1471-2164-14-859.

Repertoire, unified nomenclature and evolution of the Type III effector gene set in the Ralstonia solanacearum species complex

Nemo Peeters  1 Sébastien CarrèreMaria AnisimovaLaure PlenerAnne-Claire CazaléStephane Genin
Affiliations

Repertoire, unified nomenclature and evolution of the Type III effector gene set in the Ralstonia solanacearum species complex

Nemo Peeters et al. BMC Genomics. .

Abstract

Background: Ralstonia solanacearum is a soil-borne beta-proteobacterium that causes bacterial wilt disease in many food crops and is a major problem for agriculture in intertropical regions. R. solanacearum is a heterogeneous species, both phenotypically and genetically, and is considered as a species complex. Pathogenicity of R. solanacearum relies on the Type III secretion system that injects Type III effector (T3E) proteins into plant cells. T3E collectively perturb host cell processes and modulate plant immunity to enable bacterial infection.

Results: We provide the catalogue of T3E in the R. solanacearum species complex, as well as candidates in newly sequenced strains. 94 T3E orthologous groups were defined on phylogenetic bases and ordered using a uniform nomenclature. This curated T3E catalog is available on a public website and a bioinformatic pipeline has been designed to rapidly predict T3E genes in newly sequenced strains. Systematical analyses were performed to detect lateral T3E gene transfer events and identify T3E genes under positive selection. Our analyses also pinpoint the RipF translocon proteins as major discriminating determinants among the phylogenetic lineages.

Conclusions: Establishment of T3E repertoires in strains representatives of the R. solanacearum biodiversity allowed determining a set of 22 T3E present in all the strains but provided no clues on host specificity determinants. The definition of a standardized nomenclature and the optimization of predictive tools will pave the way to understanding how variation of these repertoires is correlated to the diversification of this species complex and how they contribute to the different strain pathotypes.

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Figures

Figure 1
Figure 1
Workflow for T3E identification in RSSC strains and main outputs of the analysis. A. Flowchart for identification and manual annotation of T3E genes in the RSSC. B. T3E statistics for each of the curated strains in this study. 1. Number of T3E genes with a potential frameshift mutation within the coding sequence. 2. Number of annotated pseudogenes (incomplete or disrupted coding frames). 3. Number of hypothetical (candidate) T3E genes. 4. Total of estimated number of T3E genes (= number of T3E + frameshifted T3E + hypothetical T3E). 5. Not determined since the genome sequence of strain RS1000 is not available.
Figure 2
Figure 2
The RipAC and RipU T3E loci are incongruence hotspots. A. Genomic map of the ripAC locus in representative strains of the four phylotypes from the RSSC and phylogenetic relationships of ripAC and its flanking genes. Arrows of same colour symbolize orthologous genes. B. Similar analysis as above for ripU. RSSC strains are color-coded according to their phylotype goup: Red for phylotype 1 and 3; Blue for phylotype 2 and green for phylotype 4 and related strains.
Figure 3
Figure 3
Grouping of T3E rip genes. Circles group (i) genes under strong positive selection, (see Table2) and (ii) genes belonging to the core group of T3E conserved in 10 out of the 11 RSSC genome sequences.
Figure 4
Figure 4
T3E distribution in RSSC strains. RSSC strains are color-coded according to their phylotype goupe: Red for phylotype 1 and 3; Blue for phylotype 2 and green for phylotype 4 and related strains. A. Shared T3E between representative strains of the three main phylogenetic lineages of the RSSC, all isolated from tomato. B. Shared T3E between R. solanacearum strains belonging to phylotype 2. The almost identical repertoires from strains IPO1609 and UW551 were merged for this comparison. C. Shared T3E between strains belonging to phylotype 4.
Figure 5
Figure 5
Phylogenetic reconstruction of the RipF family. PhyML phylogenetic reconstruction of the RipF family. The XopF from Xanthomonas arboricola [GenBank: AFV80105] is also included in this analysis. R. solanacearum GMI1000 RipF1_1 and RipF1_2 correspond to former PopF1 and PopF2.
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References

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