SEARCH

SEARCH BY CITATION

References

  • Acosta L, Romanha AJ, Cosenza H & Krettli AU (1991) Trypanosomatid isolates from Honduras: differentiation between Trypanosoma cruzi and Trypanosoma rangeli. American Journal of Tropical Medicine and Hygiene 44, 676683.
  • Breniere SF, Bosseno MF, Barnabe C, Urdaneta-Morales S & Tibayrenc M (1993) Copy number differences in the 195 bp repeated satellite DNA from Trypanosoma cruzi and Trypanosoma rangeli: potential use for epidemiologic surveys. Memoria do Instituto Oswaldo Cruz 88, 163165.
  • Bryant D & Moulton V (2004) Neighbor-Net: an agglomerative method for the construction of phylogenetic networks. Molecular Biology and Evolution 21, 255265.
  • Chiurillo MA, Crisante G, Rojas A et al. (2003) Detection of Trypanosoma cruzi and Trypanosoma rangeli infection by duplex PCR assay based on telomeric sequences. Clinical and Diagnostic Laboratory and Immunology 10, 775779.
  • Coura JR, Fernandes O, Arboleda M et al. (1996) Human infection by Trypanosoma rangeli in the Brazilian Amazon. Transactions of the Royal Society of Tropical Medicine and Hygiene 90, 278279.
  • Cuervo C, Thomas MC, Lopez MC & Puerta CJ (2013) Sequence polymorphism in the Trypanosoma rangeli HSP70 coding genes allows typing of the parasite KP1(+) and KP1(−) groups. Experimental Parasitology 133, 447453.
  • D' Alessandro A & Saravia N (1999). Trypanosoma rangeli. In: Protozoal Diseases. (ed. HM Gilles) Oxford University Press Inc., New York, USA, pp. 398412.
  • Dias FB, Diotaiuti L, Romanha AJ, Bezerra CM & Machado EM (2007) First report on the occurrence of Trypanosoma rangeli Tejera, 1920 in the state of Ceara, Brazil, in naturally infected triatomine Rhodnius nasutus Stal, 1859 (Hemiptera, Reduviidae, Triatominae). Memoria do Instituto Oswaldo Cruz 102, 643645.
  • Dorn PL, Engelke D, Rodas A et al. (1999) Utility of the polymerase chain reaction in detection of Trypanosoma cruzi in Guatemalan Chagas' disease vectors. American Journal of Tropical Medicine and Hygiene 60, 740745.
  • Fernandes O, Santos SS, Cupolillo E et al. (2001) A mini-exon multiplex polymerase chain reaction to distinguish the major groups of Trypanosoma cruzi and T. rangeli in the Brazilian Amazon. Transactions of the Royal Society of Tropical Medicine and Hygiene 95, 9799.
  • Fraga J, Veland N, Montalvo AM et al. (2012) Accurate and rapid species typing from cutaneous and mucocutaneous leishmaniasis lesions of the New World. Diagnostic Microbiology and Infectious Disease 74, 142150.
  • Garcia AL, Parrado R, De DS, Bermudez H & Dujardin JC (2007) American tegumentary leishmaniasis: direct species identification of Leishmania in non-invasive clinical samples. Transactions of the Royal Society of Tropical Medicine and Hygiene 101, 368371.
  • Greig S, Ashall F & Hudson L (1990) Use of total parasite DNA probes for the direct detection of Trypanosoma cruzi and Trypanosoma rangeli in domicilliary Rhodnius prolixus. Transactions of the Royal Society of Tropical Medicine and Hygiene 84, 5960.
  • Grisard EC, Campbell DA & Romanha AJ (1999) Mini-exon gene sequence polymorphism among Trypanosoma rangeli strains isolated from distinct geographical regions. Parasitology 118, 375382.
  • Guhl F & Vallejo GA (2003) Trypanosoma (Herpetosoma) rangeli Tejera, 1920: an updated review. Memoria do Instituto Oswaldo Cruz 98, 435442.
  • Guhl F, Hudson L, Marinkelle CJ, Jaramillo CA & Bridge D (1987) Clinical Trypanosoma rangeli infection as a complication of Chagas' disease. Parasitology 94, 475484.
  • Hotez PJ, Bottazzi ME, Franco-Paredes C, Ault S & Periago MR (2008) The neglected tropical diseases of Latin America and the Caribbean: a review of disease burden and distribution and a roadmap for control and elimination. PLoS Neglected Tropical Diseases 2, e300.
  • Huson DH (1998) SplitsTree: analyzing and visualizing evolutionary data. Bioinformatics 14, 6873.
  • Huson DH & Bryant D (2006) Application of phylogenetic networks in evolutionary studies. Molecular Biology and Evolution 23, 254267.
  • Kimura M (1980) A simple method for estimating evolutionary rate of base substitutions through comparative studies of nucleotide sequences. Journal of Molecular and Evolution 16, 111120.
  • Macedo AM, Vallejo GA, Chiari E & Pena SD (1993) DNA fingerprinting reveals relationships between strains of Trypanosoma rangeli and Trypanosoma cruzi. Experientia Supplementum 67, 321329.
  • de Miranda Santos IK & Pereira ME (1984) Lectins discriminate between pathogenic and nonpathogenic South American trypanosomes. American Journal of Tropical Medicine and Hygiene 33, 839844.
  • Montalvo AM, Fraga J, Maes I, Dujardin JC & Van der Auwera G (2012) Three new sensitive and specific heat-shock protein 70 PCRs for global Leishmania species identification. European Journal of Clinical Microbiology & Infectious Diseases 31, 14531461.
  • Morales L, Romero I, Diez H et al. (2002) Characterization of a candidate Trypanosoma rangeli small nucleolar RNA gene and its application in a PCR-based parasite detection. Experimental Parasitology 102, 7280.
  • Murthy VK, Dibbern KM & Campbell DA (1992) PCR amplification of mini-exon genes differentiates Trypanosoma cruzi from Trypanosoma rangeli. Molecular and Cellular Probes 6, 237243.
  • Ortiz PA, da Maia SF, Cortez AP et al. (2009) Genes of cathepsin L-like proteases in Trypanosoma rangeli isolates: markers for diagnosis, genotyping and phylogenetic relationships. Acta Tropica 112, 249259.
  • Pavia PX, Vallejo GA, Montilla M, Nicholls RS & Puerta CJ (2007) Detection of Trypanosoma cruzi and Trypanosoma rangeli infection in triatomine vectors by amplification of the histone H2A/SIRE and the sno-RNA-C11 genes. Revista do Instuto de Medicina Tropical São Paulo 49, 2330.
  • Ramirez LE, Lages-Silva E, Alvarenga-Franco F et al. (2002) High prevalence of Trypanosoma rangeli and Trypanosoma cruzi in opossums and triatomids in a formerly-endemic area of Chagas disease in Southeast Brazil. Acta Tropica 84, 189198.
  • Requena JM, Lopez MC, Jimenez-Ruiz A, de la Torre JC & Alonso C (1988) A head-to-tail tandem organization of hsp70 genes in Trypanosoma cruzi. Nucleic Acids Research 16, 13931406.
  • Saldaña A, Pineda V, Martinez I et al. (2012) A new endemic focus of Chagas disease in the northern region of Veraguas Province, Western Half Panama, Central America. PLoS One 7, e34657.
  • Schmunis GA & Yadon ZE (2010) Chagas disease: a Latin American health problem becoming a world health problem. Acta Tropica 115, 1421.
  • Silber AM, Bua J, Porcel BM, Segura EL & Ruiz AM (1997) Trypanosoma cruzi: specific detection of parasites by PCR in infected humans and vectors using a set of primers (BP1/BP2) targeted to a nuclear DNA sequence. Experimental Parasitology 85, 225232.
  • Souto RP, Vargas N & Zingales B (1999) Trypanosoma rangeli: discrimination from Trypanosoma cruzi based on a variable domain from the large subunit ribosomal RNA gene. Experimental Parasitology 91, 306314.
  • Sturm NR, Degrave W, Morel C & Simpson L (1989) Sensitive detection and schizodeme classification of Trypanosoma cruzi cells by amplification of kinetoplast minicircle DNA sequences: use in diagnosis of Chagas' disease. Molecular and Biochemical Parasitology 33, 205214.
  • Tamura K, Peterson D, Peterson N, Stecher G, Nei M & Kumar S (2011) MEGA5: molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods. Molecular Biology and Evolution 28, 27312739.
  • Tanaka T (1997) Differential diagnosis of Trypanosoma cruzi and T. rangeli infection by PCR of cysteine proteinase genes. Kansenshogaku Zasshi 71, 903909.
  • Thekisoe OM, Rodriguez CV & Rivas F (2010) Detection of Trypanosoma cruzi and T. rangeli infections from Rhodnius pallescens bugs by loop-mediated isothermal amplification (LAMP). American Journal of Tropical Medicine and Hygiene 82, 855860.
  • Vallejo GA, Macedo AM, Chiari E & Pena SD (1994) Kinetoplast DNA from Trypanosoma rangeli contains two distinct classes of minicircles with different size and molecular organization. Molecular and Biochemical Parasitology 67, 245253.
  • Vallejo GA, Guhl F, Chiari E & Macedo AM (1999) Species specific detection of Trypanosoma cruzi and Trypanosoma rangeli in vector and mammalian hosts by polymerase chain reaction amplification of kinetoplast minicircle DNA. Acta Tropica 72, 203212.
  • Vallejo GA, Guhl F, Carranza JC et al. (2002) KDNA markers define two major Trypanosoma rangeli lineages in Latin-America. Acta Tropica 81, 7782.
  • Vallejo GA, Gulh F & Schaub GA (2009) Triatominae–Trypanosoma cruzi/T. rangeli: vector–parasite interactions. Acta Tropica 110, 137147.
  • Vargas N, Souto RP, Carranza JC, Vallejo GA & Zingales B (2000) Amplification of a specific repetitive DNA sequence for Trypanosoma rangeli identification and its potential application in epidemiological investigations. Experimental Parasitology 96, 147159.
  • Veland N, Boggild AK, Valencia C et al. (2012) Leishmania (Viannia) species identification on clinical samples from cutaneous leishmaniasis in Peru: assessment of a molecular step-wise approach. Journal of Clinical Microbiology 50, 495498.
  • WHO – World Health Organization (2010) Chagas disease (American trypanosomiasis) fact sheet (revised in June 2010). The Weekly Epidemiological Record 85, 329336.
  • World Health Organization. (2007) Report of the scientific working group on Chagas disease. (http://whqlibdoc.who.int/hq/2007/TDR_SWG_09_spa.pdf). Accessed May 2012.
  • Zingales B, Miles MA, Campbell DA et al. (2012) The revised Trypanosoma cruzi subspecific nomenclature: rationale, epidemiological relevance and research applications. Infection Genetics and Evolution 12, 240253.