Litcius/Paper detail

Transposable element abundance correlates with mode of transmission in microsporidian parasites

Nathalia Rammé Medeiros de Albuquerque, Dieter Ebert, Karen Luisa Haag

2020Mobile DNA38 citationsDOIOpen Access PDF

Abstract

The extreme genome reduction and physiological simplicity of some microsporidia has been attributed to their intracellular, obligate parasitic lifestyle. Although not all microsporidian genomes are small (size range from about 2 to 50 MB), it is suggested that the size of their genomes has been streamlined by natural selection. We explore the hypothesis that vertical transmission in microsporidia produces population bottlenecks, and thus reduces the effectiveness of natural selection. Here we compare the transposable element (TE) content of 47 microsporidian genomes, and show that genome size is positively correlated with the amount of TEs, and that species that experience vertical transmission have larger genomes with higher proportion of TEs. Our findings are consistent with earlier studies inferring that nonadaptive processes play an important role in microsporidian evolution.

Topics & Concepts

BiologyGenomeMicrosporidiaTransposable elementObligateNatural selectionEvolutionary biologyTransmission (telecommunications)GeneticsGenome evolutionPopulationEcologyGeneSporeMicrobiologySociologyEngineeringDemographyElectrical engineeringParasitic Infections and DiagnosticsChromosomal and Genetic VariationsPlant Disease Resistance and Genetics