A single test approach for accurate and sensitive detection and taxonomic characterization of Trypanosomes by comprehensive analysis of internal transcribed spacer 1 amplicons.

A single test approach for accurate and sensitive detection and taxonomic characterization of Trypanosomes by comprehensive analysis of internal transcribed spacer 1 amplicons.

To improve our knowledge on the epidemiological status of African trypanosomiasis, better tools are required to monitor Trypanosome genotypes circulating in both mammalian hosts and tsetse fly vectors. This is important in determining the diversity of Trypanosomes and understanding how environmental...

Full description

Bibliographic Details
Main Authors: Alex Kiarie Gaithuma, Junya Yamagishi, Axel Martinelli, Kyoko Hayashida, Naoko Kawai, Megasari Marsela, Chihiro Sugimoto
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2019-02-01
Series:PLoS Neglected Tropical Diseases
Online Access:http://europepmc.org/articles/PMC6414030?pdf=render
id doaj-5366964e8a5e48d5b958f8c88b8f54dc
record_format Article
spelling doaj-5366964e8a5e48d5b958f8c88b8f54dc2020-11-25T00:59:04ZengPublic Library of Science (PLoS)PLoS Neglected Tropical Diseases1935-27271935-27352019-02-01132e000684210.1371/journal.pntd.0006842A single test approach for accurate and sensitive detection and taxonomic characterization of Trypanosomes by comprehensive analysis of internal transcribed spacer 1 amplicons.Alex Kiarie GaithumaJunya YamagishiAxel MartinelliKyoko HayashidaNaoko KawaiMegasari MarselaChihiro SugimotoTo improve our knowledge on the epidemiological status of African trypanosomiasis, better tools are required to monitor Trypanosome genotypes circulating in both mammalian hosts and tsetse fly vectors. This is important in determining the diversity of Trypanosomes and understanding how environmental factors and control efforts affect Trypanosome evolution. We present a single test approach for molecular detection of different Trypanosome species and subspecies using newly designed primers to amplify the Internal Transcribed Spacer 1 region of ribosomal RNA genes, coupled to Illumina sequencing of the amplicons. The protocol is based on Illumina's widely used 16s bacterial metagenomic analysis procedure that makes use of multiplex PCR and dual indexing. Results from analysis of wild tsetse flies collected from Zambia and Zimbabwe show that conventional methods for Trypanosome species detection based on band size comparisons on gels is not always able to accurately distinguish between T. vivax and T. godfreyi. Additionally, this approach shows increased sensitivity in the detection of Trypanosomes at species level with the exception of the Trypanozoon subgenus. We identified subspecies of T. congolense, T. simiae, T. vivax, and T. godfreyi without the need for additional tests. Results show T. congolense Kilifi subspecies is more closely related to T. simiae than to other T. congolense subspecies. This agrees with previous studies using satellite DNA and 18s RNA analysis. While current classification does not list any subspecies for T. godfreyi, we observed two distinct clusters for these species. Interestingly, sequences matching T. congolense Tsavo (now classified as T. simiae Tsavo) clusters distinctly from other T. simiae Tsavo sequences suggesting the Nannomonas group is more divergent than currently thought thus the need for better classification criteria. This method presents a simple but comprehensive way of identification of Trypanosome species and subspecies-specific using one PCR assay for molecular epidemiology of trypanosomes.http://europepmc.org/articles/PMC6414030?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Alex Kiarie Gaithuma
Junya Yamagishi
Axel Martinelli
Kyoko Hayashida
Naoko Kawai
Megasari Marsela
Chihiro Sugimoto
spellingShingle Alex Kiarie Gaithuma
Junya Yamagishi
Axel Martinelli
Kyoko Hayashida
Naoko Kawai
Megasari Marsela
Chihiro Sugimoto
A single test approach for accurate and sensitive detection and taxonomic characterization of Trypanosomes by comprehensive analysis of internal transcribed spacer 1 amplicons.
PLoS Neglected Tropical Diseases
author_facet Alex Kiarie Gaithuma
Junya Yamagishi
Axel Martinelli
Kyoko Hayashida
Naoko Kawai
Megasari Marsela
Chihiro Sugimoto
author_sort Alex Kiarie Gaithuma
title A single test approach for accurate and sensitive detection and taxonomic characterization of Trypanosomes by comprehensive analysis of internal transcribed spacer 1 amplicons.
title_short A single test approach for accurate and sensitive detection and taxonomic characterization of Trypanosomes by comprehensive analysis of internal transcribed spacer 1 amplicons.
title_full A single test approach for accurate and sensitive detection and taxonomic characterization of Trypanosomes by comprehensive analysis of internal transcribed spacer 1 amplicons.
title_fullStr A single test approach for accurate and sensitive detection and taxonomic characterization of Trypanosomes by comprehensive analysis of internal transcribed spacer 1 amplicons.
title_full_unstemmed A single test approach for accurate and sensitive detection and taxonomic characterization of Trypanosomes by comprehensive analysis of internal transcribed spacer 1 amplicons.
title_sort single test approach for accurate and sensitive detection and taxonomic characterization of trypanosomes by comprehensive analysis of internal transcribed spacer 1 amplicons.
publisher Public Library of Science (PLoS)
series PLoS Neglected Tropical Diseases
issn 1935-2727
1935-2735
publishDate 2019-02-01
description To improve our knowledge on the epidemiological status of African trypanosomiasis, better tools are required to monitor Trypanosome genotypes circulating in both mammalian hosts and tsetse fly vectors. This is important in determining the diversity of Trypanosomes and understanding how environmental factors and control efforts affect Trypanosome evolution. We present a single test approach for molecular detection of different Trypanosome species and subspecies using newly designed primers to amplify the Internal Transcribed Spacer 1 region of ribosomal RNA genes, coupled to Illumina sequencing of the amplicons. The protocol is based on Illumina's widely used 16s bacterial metagenomic analysis procedure that makes use of multiplex PCR and dual indexing. Results from analysis of wild tsetse flies collected from Zambia and Zimbabwe show that conventional methods for Trypanosome species detection based on band size comparisons on gels is not always able to accurately distinguish between T. vivax and T. godfreyi. Additionally, this approach shows increased sensitivity in the detection of Trypanosomes at species level with the exception of the Trypanozoon subgenus. We identified subspecies of T. congolense, T. simiae, T. vivax, and T. godfreyi without the need for additional tests. Results show T. congolense Kilifi subspecies is more closely related to T. simiae than to other T. congolense subspecies. This agrees with previous studies using satellite DNA and 18s RNA analysis. While current classification does not list any subspecies for T. godfreyi, we observed two distinct clusters for these species. Interestingly, sequences matching T. congolense Tsavo (now classified as T. simiae Tsavo) clusters distinctly from other T. simiae Tsavo sequences suggesting the Nannomonas group is more divergent than currently thought thus the need for better classification criteria. This method presents a simple but comprehensive way of identification of Trypanosome species and subspecies-specific using one PCR assay for molecular epidemiology of trypanosomes.
url http://europepmc.org/articles/PMC6414030?pdf=render
work_keys_str_mv AT alexkiariegaithuma asingletestapproachforaccurateandsensitivedetectionandtaxonomiccharacterizationoftrypanosomesbycomprehensiveanalysisofinternaltranscribedspacer1amplicons
AT junyayamagishi asingletestapproachforaccurateandsensitivedetectionandtaxonomiccharacterizationoftrypanosomesbycomprehensiveanalysisofinternaltranscribedspacer1amplicons
AT axelmartinelli asingletestapproachforaccurateandsensitivedetectionandtaxonomiccharacterizationoftrypanosomesbycomprehensiveanalysisofinternaltranscribedspacer1amplicons
AT kyokohayashida asingletestapproachforaccurateandsensitivedetectionandtaxonomiccharacterizationoftrypanosomesbycomprehensiveanalysisofinternaltranscribedspacer1amplicons
AT naokokawai asingletestapproachforaccurateandsensitivedetectionandtaxonomiccharacterizationoftrypanosomesbycomprehensiveanalysisofinternaltranscribedspacer1amplicons
AT megasarimarsela asingletestapproachforaccurateandsensitivedetectionandtaxonomiccharacterizationoftrypanosomesbycomprehensiveanalysisofinternaltranscribedspacer1amplicons
AT chihirosugimoto asingletestapproachforaccurateandsensitivedetectionandtaxonomiccharacterizationoftrypanosomesbycomprehensiveanalysisofinternaltranscribedspacer1amplicons
AT alexkiariegaithuma singletestapproachforaccurateandsensitivedetectionandtaxonomiccharacterizationoftrypanosomesbycomprehensiveanalysisofinternaltranscribedspacer1amplicons
AT junyayamagishi singletestapproachforaccurateandsensitivedetectionandtaxonomiccharacterizationoftrypanosomesbycomprehensiveanalysisofinternaltranscribedspacer1amplicons
AT axelmartinelli singletestapproachforaccurateandsensitivedetectionandtaxonomiccharacterizationoftrypanosomesbycomprehensiveanalysisofinternaltranscribedspacer1amplicons
AT kyokohayashida singletestapproachforaccurateandsensitivedetectionandtaxonomiccharacterizationoftrypanosomesbycomprehensiveanalysisofinternaltranscribedspacer1amplicons
AT naokokawai singletestapproachforaccurateandsensitivedetectionandtaxonomiccharacterizationoftrypanosomesbycomprehensiveanalysisofinternaltranscribedspacer1amplicons
AT megasarimarsela singletestapproachforaccurateandsensitivedetectionandtaxonomiccharacterizationoftrypanosomesbycomprehensiveanalysisofinternaltranscribedspacer1amplicons
AT chihirosugimoto singletestapproachforaccurateandsensitivedetectionandtaxonomiccharacterizationoftrypanosomesbycomprehensiveanalysisofinternaltranscribedspacer1amplicons
_version_ 1725218989533036544

Similar Items