Genome and Phylogenetic Analyses of Trypanosoma evansi Reveal Extensive Similarity to T. brucei and Multiple Independent Origins for Dyskinetoplasty

Two key biological features distinguish Trypanosoma evansi from the T. brucei group: independence from the tsetse fly as obligatory vector, and independence from the need for functional mitochondrial DNA (kinetoplast or kDNA). In an effort to better understand the molecular causes and consequences o...

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Autores principales: Carnes, Jason, Anupama, Atashi, Balmer, Oliver, Jackson, Andrew, Lewis, Michael, Brown, Rob, Cestari, Igor, Desquesnes, Marc, Gendrin, Claire, Hertz-Fowler, Christiane, Imamura, Hideo, Ivens, Alasdair, Kořený, Luděk, Lai, De-Hua, MacLeod, Annette, McDermott, Suzanne M., Merritt, Chris, Monnerat, Severine, Moon, Wonjong, Myler, Peter, Phan, Isabelle, Ramasamy, Gowthaman, Sivam, Dhileep, Lun, Zhao-Rong, Lukeš, Julius, Stuart, Ken, Schnaufer, Achim
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2015
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4288722/
https://www.ncbi.nlm.nih.gov/pubmed/25568942
http://dx.doi.org/10.1371/journal.pntd.0003404
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author Carnes, Jason
Anupama, Atashi
Balmer, Oliver
Jackson, Andrew
Lewis, Michael
Brown, Rob
Cestari, Igor
Desquesnes, Marc
Gendrin, Claire
Hertz-Fowler, Christiane
Imamura, Hideo
Ivens, Alasdair
Kořený, Luděk
Lai, De-Hua
MacLeod, Annette
McDermott, Suzanne M.
Merritt, Chris
Monnerat, Severine
Moon, Wonjong
Myler, Peter
Phan, Isabelle
Ramasamy, Gowthaman
Sivam, Dhileep
Lun, Zhao-Rong
Lukeš, Julius
Stuart, Ken
Schnaufer, Achim
author_facet Carnes, Jason
Anupama, Atashi
Balmer, Oliver
Jackson, Andrew
Lewis, Michael
Brown, Rob
Cestari, Igor
Desquesnes, Marc
Gendrin, Claire
Hertz-Fowler, Christiane
Imamura, Hideo
Ivens, Alasdair
Kořený, Luděk
Lai, De-Hua
MacLeod, Annette
McDermott, Suzanne M.
Merritt, Chris
Monnerat, Severine
Moon, Wonjong
Myler, Peter
Phan, Isabelle
Ramasamy, Gowthaman
Sivam, Dhileep
Lun, Zhao-Rong
Lukeš, Julius
Stuart, Ken
Schnaufer, Achim
author_sort Carnes, Jason
collection PubMed
description Two key biological features distinguish Trypanosoma evansi from the T. brucei group: independence from the tsetse fly as obligatory vector, and independence from the need for functional mitochondrial DNA (kinetoplast or kDNA). In an effort to better understand the molecular causes and consequences of these differences, we sequenced the genome of an akinetoplastic T. evansi strain from China and compared it to the T. b. brucei reference strain. The annotated T. evansi genome shows extensive similarity to the reference, with 94.9% of the predicted T. b. brucei coding sequences (CDS) having an ortholog in T. evansi, and 94.6% of the non-repetitive orthologs having a nucleotide identity of 95% or greater. Interestingly, several procyclin-associated genes (PAGs) were disrupted or not found in this T. evansi strain, suggesting a selective loss of function in the absence of the insect life-cycle stage. Surprisingly, orthologous sequences were found in T. evansi for all 978 nuclear CDS predicted to represent the mitochondrial proteome in T. brucei, although a small number of these may have lost functionality. Consistent with previous results, the F(1)F(O)-ATP synthase γ subunit was found to have an A281 deletion, which is involved in generation of a mitochondrial membrane potential in the absence of kDNA. Candidates for CDS that are absent from the reference genome were identified in supplementary de novo assemblies of T. evansi reads. Phylogenetic analyses show that the sequenced strain belongs to a dominant group of clonal T. evansi strains with worldwide distribution that also includes isolates classified as T. equiperdum. At least three other types of T. evansi or T. equiperdum have emerged independently. Overall, the elucidation of the T. evansi genome sequence reveals extensive similarity of T. brucei and supports the contention that T. evansi should be classified as a subspecies of T. brucei.
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spelling pubmed-42887222015-01-12 Genome and Phylogenetic Analyses of Trypanosoma evansi Reveal Extensive Similarity to T. brucei and Multiple Independent Origins for Dyskinetoplasty Carnes, Jason Anupama, Atashi Balmer, Oliver Jackson, Andrew Lewis, Michael Brown, Rob Cestari, Igor Desquesnes, Marc Gendrin, Claire Hertz-Fowler, Christiane Imamura, Hideo Ivens, Alasdair Kořený, Luděk Lai, De-Hua MacLeod, Annette McDermott, Suzanne M. Merritt, Chris Monnerat, Severine Moon, Wonjong Myler, Peter Phan, Isabelle Ramasamy, Gowthaman Sivam, Dhileep Lun, Zhao-Rong Lukeš, Julius Stuart, Ken Schnaufer, Achim PLoS Negl Trop Dis Research Article Two key biological features distinguish Trypanosoma evansi from the T. brucei group: independence from the tsetse fly as obligatory vector, and independence from the need for functional mitochondrial DNA (kinetoplast or kDNA). In an effort to better understand the molecular causes and consequences of these differences, we sequenced the genome of an akinetoplastic T. evansi strain from China and compared it to the T. b. brucei reference strain. The annotated T. evansi genome shows extensive similarity to the reference, with 94.9% of the predicted T. b. brucei coding sequences (CDS) having an ortholog in T. evansi, and 94.6% of the non-repetitive orthologs having a nucleotide identity of 95% or greater. Interestingly, several procyclin-associated genes (PAGs) were disrupted or not found in this T. evansi strain, suggesting a selective loss of function in the absence of the insect life-cycle stage. Surprisingly, orthologous sequences were found in T. evansi for all 978 nuclear CDS predicted to represent the mitochondrial proteome in T. brucei, although a small number of these may have lost functionality. Consistent with previous results, the F(1)F(O)-ATP synthase γ subunit was found to have an A281 deletion, which is involved in generation of a mitochondrial membrane potential in the absence of kDNA. Candidates for CDS that are absent from the reference genome were identified in supplementary de novo assemblies of T. evansi reads. Phylogenetic analyses show that the sequenced strain belongs to a dominant group of clonal T. evansi strains with worldwide distribution that also includes isolates classified as T. equiperdum. At least three other types of T. evansi or T. equiperdum have emerged independently. Overall, the elucidation of the T. evansi genome sequence reveals extensive similarity of T. brucei and supports the contention that T. evansi should be classified as a subspecies of T. brucei. Public Library of Science 2015-01-08 /pmc/articles/PMC4288722/ /pubmed/25568942 http://dx.doi.org/10.1371/journal.pntd.0003404 Text en © 2015 Carnes et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Carnes, Jason
Anupama, Atashi
Balmer, Oliver
Jackson, Andrew
Lewis, Michael
Brown, Rob
Cestari, Igor
Desquesnes, Marc
Gendrin, Claire
Hertz-Fowler, Christiane
Imamura, Hideo
Ivens, Alasdair
Kořený, Luděk
Lai, De-Hua
MacLeod, Annette
McDermott, Suzanne M.
Merritt, Chris
Monnerat, Severine
Moon, Wonjong
Myler, Peter
Phan, Isabelle
Ramasamy, Gowthaman
Sivam, Dhileep
Lun, Zhao-Rong
Lukeš, Julius
Stuart, Ken
Schnaufer, Achim
Genome and Phylogenetic Analyses of Trypanosoma evansi Reveal Extensive Similarity to T. brucei and Multiple Independent Origins for Dyskinetoplasty
title Genome and Phylogenetic Analyses of Trypanosoma evansi Reveal Extensive Similarity to T. brucei and Multiple Independent Origins for Dyskinetoplasty
title_full Genome and Phylogenetic Analyses of Trypanosoma evansi Reveal Extensive Similarity to T. brucei and Multiple Independent Origins for Dyskinetoplasty
title_fullStr Genome and Phylogenetic Analyses of Trypanosoma evansi Reveal Extensive Similarity to T. brucei and Multiple Independent Origins for Dyskinetoplasty
title_full_unstemmed Genome and Phylogenetic Analyses of Trypanosoma evansi Reveal Extensive Similarity to T. brucei and Multiple Independent Origins for Dyskinetoplasty
title_short Genome and Phylogenetic Analyses of Trypanosoma evansi Reveal Extensive Similarity to T. brucei and Multiple Independent Origins for Dyskinetoplasty
title_sort genome and phylogenetic analyses of trypanosoma evansi reveal extensive similarity to t. brucei and multiple independent origins for dyskinetoplasty
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4288722/
https://www.ncbi.nlm.nih.gov/pubmed/25568942
http://dx.doi.org/10.1371/journal.pntd.0003404
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