Mylène Verney scite author profile

Mylène Verney

3Publications

22Citation Statements Received

209Citation Statements Given

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132

190

Affiliations

Département Santé Animale, French Agency for Food, Environmental and Occupational Health & Safety

Publications

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Monomorphic Trypanozoon: towards reconciling phylogeny and pathologies

Oldrieve

Verney

Jaroň

et al. 2021

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Trypanosoma brucei evansi and T. brucei equiperdum are animal infective trypanosomes conventionally classified by their clinical disease presentation, mode of transmission, host range, kinetoplast DNA (kDNA) composition and geographical distribution. Unlike other members of the subgenus Trypanozoon, they are non-tsetse transmitted and predominantly morphologically uniform (monomorphic) in their mammalian host. Their classification as independent species or subspecies has been long debated and genomic studies have found that isolates within T. brucei evansi and T. brucei equiperdum have polyphyletic origins. Since current taxonomy does not fully acknowledge these polyphyletic relationships, we re-analysed publicly available genomic data to carefully define each clade of monomorphic trypanosome. This allowed us to identify, and account for, lineage-specific variation. We included a recently published isolate, IVM-t1, which was originally isolated from the genital mucosa of a horse with dourine and typed as T. equiperdum. Our analyses corroborate previous studies in identifying at least four distinct monomorphic T. brucei clades. We also found clear lineage-specific variation in the selection efficacy and heterozygosity of the monomorphic lineages, supporting their distinct evolutionary histories. The inferred evolutionary position of IVM-t1 suggests its reassignment to the T. brucei evansi type B clade, challenging the relationship between the Trypanozoon species, the infected host, mode of transmission and the associated pathological phenotype. The analysis of IVM-t1 also provides, to our knowledge, the first evidence of the expansion of T. brucei evansi type B, or a fifth monomorphic lineage represented by IVM-t1, outside of Africa, with important possible implications for disease diagnosis.

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MonomorphicTrypanozoon: towards reconciling phylogeny and pathologies

Oldrieve

Verney

Jaroň

et al. 2021

Preprint

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Trypanosoma brucei evansi and Trypanosoma brucei equiperdum are animal infective trypanosomes conventionally classified by their clinical disease presentation, mode of transmission, host range, kDNA composition and geographic distribution. Unlike other members of the subgenus Trypanozoon, they are non-tsetse transmitted and predominantly morphologically uniform (monomorphic) in their mammalian host. Their classification as independent species or subspecies has been long debated and genomic studies have found that isolates within T. b. evansi and T. b. equiperdum have polyphyletic origins. Since current taxonomy does not fully acknowledge these polyphyletic relationships, we re-analysed publicly available genomic data to carefully define each clade of monomorphic trypanosome. This allowed us to identify, and account for, lineage specific variation. We included a recently published isolate, IVM-t1, which was originally isolated from the genital mucosa of a horse with dourine and typed as T. equiperdum. Our analyses corroborate previous studies in identifying at least four distinct monomorphic T. brucei clades. We also found clear lineage specific variation in the selection efficacy and heterozygosity of the monomorphic lineages, supporting their distinct evolutionary histories. The inferred evolutionary position of IVM-t1 suggests its reassignment to the T. b. evansi type B clade, challenging the relationship between the Trypanozoon species, the infected host, mode of transmission and the associated pathological phenotype. The analysis of IVM-t1 also provides the first evidence of the expansion of T. b. evansi type B, or a 5th monomorphic lineage represented by IVM-t1, outside of Africa, with important possible implications for disease diagnosis.

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Molecular detection of 7SL‐derived small RNA is a promising alternative for trypanosomosis diagnosis

Verney

Grey

Lemans

et al. 2020

Transbound. Emerg. Dis.

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Equine trypanosomosis comprises different parasitic diseases caused by protozoa of the subgenus Trypanozoon: Trypanosoma equiperdum (causative agent of dourine), Trypanosoma brucei (nagana) and Trypanosoma evansi (surra). Due to the absence of a vaccine and the lack of efficacy of the few available drugs, these diseases represent How to cite this article: Verney M, Grey F, Lemans C, et al. Molecular detection of 7SL-derived small RNA is a promising alternative for trypanosomosis diagnosis.

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Mylène Verney

Monomorphic Trypanozoon: towards reconciling phylogeny and pathologies

MonomorphicTrypanozoon: towards reconciling phylogeny and pathologies

Molecular detection of 7SL‐derived small RNA is a promising alternative for trypanosomosis diagnosis

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