BACKGROUND: Trypanosoma cruzi is a protozoan parasite and the etiologic agent of Chagas disease, an important public health problem in Latin America. T. cruzi is diploid, almost exclusively asexual, and displays an extraordinarily diverse population structure both genetically and phenotypically. Yet, to date the genotypic diversity of T. cruzi and its relationship, if any, to biological diversity have not been studied at the whole genome level. RESULTS: In this study, we used whole genome oligonucleotide tiling arrays to compare gene content in biologically disparate T. cruzi strains by comparative genomic hybridization (CGH). We observed that T. cruzi strains display widespread and focal copy number variations (CNV) and a substantially greater level of diversity than can be adequately defined by the current genetic typing methods. As expected, CNV were particularly frequent in gene family-rich regions containing mucins and trans-sialidases but were also evident in core genes. Gene groups that showed little variation in copy numbers among the strains tested included those encoding protein kinases and ribosomal proteins, suggesting these loci were less permissive to CNV. Moreover, frequent variation in chromosome copy numbers were observed, and chromosome-specific CNV signatures were shared by genetically divergent T. cruzi strains. CONCLUSIONS: The large number of CNV, over 4,000, reported here uphold at a whole genome level the long held paradigm of extraordinary genome plasticity among T. cruzi strains. Moreover, the fact that these heritable markers do not parse T. cruzi strains along the same lines as traditional typing methods is strongly suggestive of genetic exchange playing a major role in T. cruzi population structure and biology.
BACKGROUND:Trypanosoma cruzi is a protozoan parasite and the etiologic agent of Chagas disease, an important public health problem in Latin America. T. cruzi is diploid, almost exclusively asexual, and displays an extraordinarily diverse population structure both genetically and phenotypically. Yet, to date the genotypic diversity of T. cruzi and its relationship, if any, to biological diversity have not been studied at the whole genome level. RESULTS: In this study, we used whole genome oligonucleotide tiling arrays to compare gene content in biologically disparate T. cruzi strains by comparative genomic hybridization (CGH). We observed that T. cruzi strains display widespread and focal copy number variations (CNV) and a substantially greater level of diversity than can be adequately defined by the current genetic typing methods. As expected, CNV were particularly frequent in gene family-rich regions containing mucins and trans-sialidases but were also evident in core genes. Gene groups that showed little variation in copy numbers among the strains tested included those encoding protein kinases and ribosomal proteins, suggesting these loci were less permissive to CNV. Moreover, frequent variation in chromosome copy numbers were observed, and chromosome-specific CNV signatures were shared by genetically divergent T. cruzi strains. CONCLUSIONS: The large number of CNV, over 4,000, reported here uphold at a whole genome level the long held paradigm of extraordinary genome plasticity among T. cruzi strains. Moreover, the fact that these heritable markers do not parse T. cruzi strains along the same lines as traditional typing methods is strongly suggestive of genetic exchange playing a major role in T. cruzi population structure and biology.
Authors: Jason S Maydan; Stephane Flibotte; Mark L Edgley; Joanne Lau; Rebecca R Selzer; Todd A Richmond; Nathan J Pofahl; James H Thomas; Donald G Moerman Journal: Genome Res Date: 2007-01-31 Impact factor: 9.043
Authors: Martin S Llewellyn; Michael A Miles; Hernan J Carrasco; Michael D Lewis; Matthew Yeo; Jorge Vargas; Faustino Torrico; Patricio Diosque; Vera Valente; Sebastiao A Valente; Michael W Gaunt Journal: PLoS Pathog Date: 2009-05-01 Impact factor: 6.823
Authors: Guangbo Chen; Wahid A Mulla; Andrei Kucharavy; Hung-Ji Tsai; Boris Rubinstein; Juliana Conkright; Scott McCroskey; William D Bradford; Lauren Weems; Jeff S Haug; Chris W Seidel; Judith Berman; Rong Li Journal: Cell Date: 2015-02-12 Impact factor: 41.582
Authors: Carlos Talavera-López; Louisa A Messenger; Michael D Lewis; Matthew Yeo; João Luís Reis-Cunha; Gabriel Machado Matos; Daniella C Bartholomeu; José E Calzada; Azael Saldaña; Juan David Ramírez; Felipe Guhl; Sofía Ocaña-Mayorga; Jaime A Costales; Rodion Gorchakov; Kathryn Jones; Melissa S Nolan; Santuza M R Teixeira; Hernán José Carrasco; Maria Elena Bottazzi; Peter J Hotez; Kristy O Murray; Mario J Grijalva; Barbara Burleigh; Edmundo C Grisard; Michael A Miles; Björn Andersson Journal: Front Cell Infect Microbiol Date: 2021-03-03 Impact factor: 5.293