The Maze Pathway of Coevolution: A Critical Review over the Leishmania and Its Endosymbiotic History

The description of the genus as the causative agent of leishmaniasis occurred in the modern age. However, evolutionary studies suggest that the origin of can be traced back to the Mesozoic era. Subsequently, during its evolutionary process, it achieved worldwide dispersion predating the breakup of t...

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Veröffentlicht in:	Genes 2021-04, Vol.12 (5), p.657
Hauptverfasser:	Cantanhêde, Lilian Motta, Mata-Somarribas, Carlos, Chourabi, Khaled, Pereira da Silva, Gabriela, Dias das Chagas, Bruna, de Oliveira R Pereira, Luiza, Côrtes Boité, Mariana, Cupolillo, Elisa
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Sprache:	eng
Schlagworte:	Binding sites Coevolution Genomes Genomics Infections Leishmania Leishmaniasis Mesozoic Parasites Phylogeny Proteins Review RNA polymerase RNA viruses Species Taxonomy Virus-like particles Viruses
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creator	Cantanhêde, Lilian Motta Mata-Somarribas, Carlos Chourabi, Khaled Pereira da Silva, Gabriela Dias das Chagas, Bruna de Oliveira R Pereira, Luiza Côrtes Boité, Mariana Cupolillo, Elisa
description	The description of the genus as the causative agent of leishmaniasis occurred in the modern age. However, evolutionary studies suggest that the origin of can be traced back to the Mesozoic era. Subsequently, during its evolutionary process, it achieved worldwide dispersion predating the breakup of the Gondwana supercontinent. It is assumed that this parasite evolved from monoxenic Trypanosomatidae. Phylogenetic studies locate dixenous in a well-supported clade, in the recently named subfamily Leishmaniinae, which also includes monoxenous trypanosomatids. Virus-like particles have been reported in many species of this family. To date, several species have been reported to be infected by RNA virus (LRV) and (LBV). Since the first descriptions of LRVs decades ago, differences in their genomic structures have been highlighted, leading to the designation of LRV1 in . ( ) species and LRV2 in . ( ) species. There are strong indications that viruses that infect spp. have the ability to enhance parasitic survival in humans as well as in experimental infections, through highly complex and specialized mechanisms. Phylogenetic analyses of these viruses have shown that their genomic differences correlate with the parasite species infected, suggesting a coevolutionary process. Herein, we will explore what has been described in the literature regarding the relationship between and endosymbiotic viruses and what is known about this association that could contribute to discussions about the worldwide dispersion of
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subjects	Binding sites Coevolution Genomes Genomics Infections Leishmania Leishmaniasis Mesozoic Parasites Phylogeny Proteins Review RNA polymerase RNA viruses Species Taxonomy Virus-like particles Viruses
title	The Maze Pathway of Coevolution: A Critical Review over the Leishmania and Its Endosymbiotic History
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