Contribution of Lateral Gene Transfers to the Genome Composition and Parasitic Ability of Root-Knot Nematodes

Paganini, Julien; Campan-Fournier, Amandine; Rocha, Martine Da; Gouret, Philippe; Pontarotti, Pierre; Wajnberg, Éric; Abad, Pierre; Danchin, Etienne G. J.

doi:10.1371/journal.pone.0050875

Cited by 60 publications

(71 citation statements)

References 45 publications

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“…Some of these proteins could originate from HGT events. To assess which AI threshold maximizes the number of very likely HGT and minimizes the number of false positives, we compared the results of Alienness to a previous analysis we published on the same proteome in 2012 [38]. Briefly, in this 2012 analysis we first identified Meloidogyne proteins having no clear ortholog in metazoa via an OrthoMCL analysis [39].…”

Section: Validation Of Alienness On Nematode Genomesmentioning

confidence: 99%

“…To estimate the recall rate of Alienness, we plotted the percentage of candidate HGT proteins supported by phylogenies ( Figure 5) for different AI threshold values (from -10 to >66 with incremental steps of 2). We differentiate phylogenies only supported by a node 'A' linking the plant-parasitic nematodes to non-metazoan putative donors and those supported by both a node 'A' and an additional node 'B', linking the node 'A' to any species but plant-parasitic nematodes [38]. To estimate the risk of false positives produced by Alienness, we plotted the percentage of proteins returning phylogenetic trees not supporting HGT at the same range of AI values.…”

Section: Validation Of Alienness On Nematode Genomesmentioning

confidence: 99%

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Alienness: Rapid Detection of Candidate Horizontal Gene Transfers across the Tree of Life

Rancurel

Legrand

Danchin

2017

Preprint

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Abstract:Horizontal gene transfer (HGT) is the transmission of genes between organisms by other means than parental to offspring inheritance. While it is prevalent in prokaryotes, HGT is less frequent in eukaryotes and particularly in metazoan. Here, we propose Alienness, a taxonomy-aware web application that parses BLAST results against public libraries to rapidly identify candidate HGT in any genome of interest. Alienness takes as input the result of a BLAST of a whole proteome of interest against any NCBI protein library. The user defines recipient (e.g. metazoan) and donor (e.g. bacteria, fungi) branches of interest in the NCBI taxonomy. Based on the best BLAST E-values of candidate donor and recipient taxa, Alienness calculates an Alien Index (AI) for each query protein.An AI >0 indicates a better hit to candidate donor than recipient taxa and a possible HGT. Higher AI represent higher gap of E-values between candidate donor and recipient and a more likely HGT. We confirmed the accuracy of Alienness on phylogenetically confirmed HGT of non-metazoan origin in plant-parasitic nematodes. Alienness scans whole proteomes to rapidly identify possible HGT in any species of interest and thus fosters exploration of HGT more easily and largely across the tree of life.

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Section: Validation Of Alienness On Nematode Genomesmentioning

confidence: 99%

Section: Validation Of Alienness On Nematode Genomesmentioning

confidence: 99%

Alienness: Rapid Detection of Candidate Horizontal Gene Transfers across the Tree of Life

Rancurel

Legrand

Danchin

2017

Preprint

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“…The sequences from all known proteins from bacterial plasmids, prophages and phages were downloaded from the ACLAME database (version 4.0; http://aclame.ulb.ac.be/perl/Aclame/Tools/exporter.cgi; Leplae et al 2010) and formatted as a custom database in Geneious Pro 5.1.7 (www.geneious.com; Kearse et al 2012). The Aqu2.1 gene models of the 576 AqHGT-derivatives were searched against this custom database using BLASTp in Geneious Pro 5.1.7 (www.geneious.com; Kearse et al 2012), with the same cut-off thresholds used by Paganini et al (2012) in their similar search (e-value <0.001, with at least 30% identity on at least 50% of both the query and subject proteins).…”

Section: Searching a Queenslandica Hgt-derivatives For Genes From Bamentioning

confidence: 99%

“…While there are many speculations about TEs mediating HGT in animals, only two studies have systematically tested for a genomic co-occurrence of HGTs and TEs in animals, as summarised above (Paganini et al 2012;Flot et al 2013). However, neither of these studies considered the possibly confounding effect of gene duplication on their analysis, despite reporting extensive duplications of HGTs (Paganini et al 2012;Flot et al 2013).…”

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confidence: 99%

“…However, neither of these studies considered the possibly confounding effect of gene duplication on their analysis, despite reporting extensive duplications of HGTs (Paganini et al 2012;Flot et al 2013). Here, I investigate and compare the densities and content of bacterial and eukaryotic TEs around putatively unduplicated HGTs and native genes in the genome of A. queenslandica.…”

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confidence: 99%

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Horizontal gene transfer in the sponge Amphimedon queenslandica

Higgie¹

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Horizontal gene transfer (HGT) is the nonsexual transfer of genetic sequence across species boundaries.Historically, HGT has been assumed largely irrelevant to animal evolution, though widely recognised as an important evolutionary force in bacteria. From the recent boom in whole genome sequencing, many cases have emerged strongly supporting the occurrence of HGT in a wide range of animals.However, the extent, nature and mechanisms of HGT in animals remain poorly understood. Here, I explore these uncertainties using 576 HGTs previously reported in the genome of the demosponge Amphimedon queenslandica.The HGTs derive from bacterial, plant and fungal sources, contain a broad range of domain types, and many are differentially expressed throughout development. Some domains are highly enriched; phylogenetic analyses of the two largest groups, the Aspzincin_M35 and the PNP_UDP_1 domain groups, suggest that each results from one or few transfer events followed by post-transfer duplication.Their differential expression through development, and the conservation of domains and duplicates, together suggest that many of the HGT-derived genes are functioning in A. queenslandica. The largest group consists of aspzincins, a metallopeptidase found in bacteria and fungi, but not typically in animals.I detected aspzincins in representatives of all four of the sponge classes, suggesting that the original sponge aspzincin was transferred after sponges diverged from their last common ancestor with the Eumetazoa, but before the contemporary sponge classes emerged. In A. queenslandica, the aspzincins may have been co-opted for multiple functions, since 54 of the 90 fit into one of four ontogenetic expression profiles, each of which is putatively co-expressed with different suites of native genes.Based on secretion signals and the conservation of key catalytic residues, I propose that proteolytic activity is maintained in at least one of the aspzincin roles in A. queenslandica.Mobile elements are capable of genomic excision, movement and integration, they enable HGT in bacteria, and some animal HGTs are genomically close to eukaryotic transposable elements (TEs); as such, mobile elements are speculated as possible players in the mechanisms of interkingdom and interdomain HGT to animals. In A. queenslandica, the overall repeats densities around predicted Together, these results offer novel insight on HGT in A. queenslandica and demonstrate that HGT has a varied nature in this animal with an extensive impact, partially due to post-transfer duplications. Further, this work offers insights on possible mechanisms that led to the HGT derived genes of this sponge. iv Declaration by authorThis thesis is composed of my original work, and contains no material previously published or written by another person except where due reference has been made in the text. I have clearly stated the contribution by others to jointly-authored works that I have included in my thesis.

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Horizontal gene transfer in eukaryotes: The weak‐link model

2013

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The significance of horizontal gene transfer (HGT) in eukaryotic evolution remains controversial. Although many eukaryotic genes are of bacterial origin, they are often interpreted as being derived from mitochondria or plastids. Because of their fixed gene pool and gene loss, however, mitochondria and plastids alone cannot adequately explain the presence of all, or even the majority, of bacterial genes in eukaryotes. Available data indicate that no insurmountable barrier to HGT exists, even in complex multicellular eukaryotes. In addition, the discovery of both recent and ancient HGT events in all major eukaryotic groups suggests that HGT has been a regular occurrence throughout the history of eukaryotic evolution. A model of HGT is proposed that suggests both unicellular and early developmental stages as likely entry points for foreign genes into multicellular eukaryotes.

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Contribution of Lateral Gene Transfers to the Genome Composition and Parasitic Ability of Root-Knot Nematodes

Cited by 60 publications

References 45 publications

Alienness: Rapid Detection of Candidate Horizontal Gene Transfers across the Tree of Life

Alienness: Rapid Detection of Candidate Horizontal Gene Transfers across the Tree of Life

Horizontal gene transfer in the sponge Amphimedon queenslandica

Horizontal gene transfer in eukaryotes: The weak‐link model

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