Litcius/Paper detail

Enhancing Trypanosomatid Identification and Genotyping with Oxford Nanopore Sequencing

Lissa Cruz‐Saavedra, Carlos Ospina, Luz Helena Patiño, Juan Carlos Villar, Luis Sáenz, Omar Cantillo‐Barraza, Jeiczon Jaimes-Dueñez, Nathalia Ballesteros, Tatiana Cáceres, Gustavo Adolfo Vallejo, Juan David Ramírez

2024Journal of Molecular Diagnostics12 citationsDOIOpen Access PDF

Abstract

Trypanosomatids, including Trypanosoma and Leishmania species, present significant medical and veterinary challenges, causing substantial economic losses, health complications, and even fatalities. Diagnosing and genotyping these species and their genotypes is often complex, involving multiple steps. This study aimed to develop an amplicon-based sequencing (ABS) method using Oxford Nanopore long-read sequencing to enhance Trypanosomatid detection and genotyping. The 18S rDNA gene was targeted for its inter-species conservation. The Trypanosomatid-ABS method effectively distinguished between 11 Trypanosoma species (including Trypanosoma evansi, Trypanosoma theileri, Trypanosoma vivax, and Trypanosoma rangeli) and 6 Trypanosoma cruzi discrete typing units (TcI to TcVI and TcBat), showing strong concordance with conventional methods (κ index of 0.729, P < 0.001). It detected co-infections between Trypanosomatid genera and T. cruzi, with a limit of detection of one parasite per mL. The method was successfully applied to human, animal, and triatomine samples. Notably, TcI predominated in chronic Chagas samples, whereas TcII and TcIV were found in the acute stage. Triatomine vectors exhibited diverse Trypanosomatid infections, with Triatoma dimidiata mainly infected with TcI and occasional TcBat co-infections, and Rhodnius prolixus showing TcI and TcII infections, along with T. rangeli co-infections and mixed TcII infections. Animals were infected with T. vivax, T. theileri, and T. evansi. The ABS method's high resolution, sensitivity, and accuracy make it a valuable tool for understanding Trypanosomatid dynamics, enhancing disease control strategies, and enabling targeted interventions.

Topics & Concepts

BiologyGenotypingAmpliconNanopore sequencingTrypanosoma cruziChagas diseaseTrypanosomaVirologyTrypanosoma vivaxKinetoplastGenotypeParasite hostingGeneticsComputational biologyDNA sequencingPolymerase chain reactionGeneDNAComputer scienceWorld Wide WebTrypanosoma species research and implicationsInsect symbiosis and bacterial influencesResearch on Leishmaniasis Studies
Enhancing Trypanosomatid Identification and Genotyping with Oxford Nanopore Sequencing | Litcius