TY - JOUR
T1 - The transcriptomes of Xiphinema index and Longidorus elongatus suggest independent acquisition of some plant parasitism genes by horizontal gene transfer in early-branching nematodes
AU - Danchin, Etienne G J
AU - Perfus-Barbeoch, Laetitia
AU - Rancurel, Corinne
AU - Thorpe, Peter
AU - Da Rocha, Martine
AU - Bajew, Simon
AU - Neilson, Roy
AU - Guzeeva, Elena Sokolova
AU - Da Silva, Corinne
AU - Guy, Julie
AU - Labadie, Karine
AU - Esmenjaud, Daniel
AU - Helder, Johannes
AU - Jones, John T
AU - den Akker, Sebastian Eves-van
N1 - Work described in this article was partly funded by the Rural & Environment Science & Analytical Services Division of the Scottish Government and by two grants from the French National Research Agency (ANR) under the Genoplante program (project ANR-PCS-08-GENO-166 NEMATARGETS) and the JCJC program (project ANR-13-JSV7-0006—ASEXEVOL). This work was facilitated by interactions funded through COST action FA1208 and Royal Society International Exchange award IE130707. Sebastian Eves-van den Akker is supported by Biotechnology and Biological Sciences Research Council (BBSRC) grant BB/M014207/1.
PY - 2017/10/23
Y1 - 2017/10/23
N2 - Nematodes have evolved the ability to parasitize plants on at least four independent occasions, with plant parasites present in Clades 1, 2, 10 and 12 of the phylum. In the case of Clades 10 and 12, horizontal gene transfer of plant cell wall degrading enzymes from bacteria and fungi has been implicated in the evolution of plant parasitism. We have used ribonucleic acid sequencing (RNAseq) to generate reference transcriptomes for two economically important nematode species, Xiphinema index and Longidorus elongatus, representative of two genera within the early-branching Clade 2 of the phylum Nematoda. We used a transcriptome-wide analysis to identify putative horizontal gene transfer events. This represents the first in-depth transcriptome analysis from any plant-parasitic nematode of this clade. For each species, we assembled ~30 million Illumina reads into a reference transcriptome. We identified 62 and 104 transcripts, from X. index and L. elongatus, respectively, that were putatively acquired via horizontal gene transfer. By cross-referencing horizontal gene transfer prediction with a phylum-wide analysis of Pfam domains, we identified Clade 2-specific events. Of these, a GH12 cellulase from X. index was analysed phylogenetically and biochemically, revealing a likely bacterial origin and canonical enzymatic function. Horizontal gene transfer was previously shown to be a phenomenon that has contributed to the evolution of plant parasitism among nematodes. Our findings underline the importance and the extensiveness of this phenomenon in the evolution of plant-parasitic life styles in this speciose and widespread animal phylum.
AB - Nematodes have evolved the ability to parasitize plants on at least four independent occasions, with plant parasites present in Clades 1, 2, 10 and 12 of the phylum. In the case of Clades 10 and 12, horizontal gene transfer of plant cell wall degrading enzymes from bacteria and fungi has been implicated in the evolution of plant parasitism. We have used ribonucleic acid sequencing (RNAseq) to generate reference transcriptomes for two economically important nematode species, Xiphinema index and Longidorus elongatus, representative of two genera within the early-branching Clade 2 of the phylum Nematoda. We used a transcriptome-wide analysis to identify putative horizontal gene transfer events. This represents the first in-depth transcriptome analysis from any plant-parasitic nematode of this clade. For each species, we assembled ~30 million Illumina reads into a reference transcriptome. We identified 62 and 104 transcripts, from X. index and L. elongatus, respectively, that were putatively acquired via horizontal gene transfer. By cross-referencing horizontal gene transfer prediction with a phylum-wide analysis of Pfam domains, we identified Clade 2-specific events. Of these, a GH12 cellulase from X. index was analysed phylogenetically and biochemically, revealing a likely bacterial origin and canonical enzymatic function. Horizontal gene transfer was previously shown to be a phenomenon that has contributed to the evolution of plant parasitism among nematodes. Our findings underline the importance and the extensiveness of this phenomenon in the evolution of plant-parasitic life styles in this speciose and widespread animal phylum.
KW - Glycoside hydrolase
KW - Horizontal gene transfer
KW - Nematodes
KW - Plant parasitism
UR - http://www.mdpi.com/2073-4425/8/10/287#supplementary
U2 - 10.3390/genes8100287
DO - 10.3390/genes8100287
M3 - Article
C2 - 29065523
AN - SCOPUS:85030569564
SN - 2073-4425
VL - 8
JO - Genes
JF - Genes
IS - 10
M1 - 287
ER -