AI Article Synopsis
- Nosema ceranae is a prevalent microsporidian parasite affecting honeybees, with its virulence potentially influenced by genetic diversity and environmental factors.
- Researchers used a multilocus genotyping approach to analyze ten genetic markers from various N. ceranae samples taken from individual honeybees across different regions, finding high genetic diversity within single host populations.
- Despite the genetic diversity observed, the study concluded that there was no differentiation among parasite isolates, suggesting that similar N. ceranae populations infect honeybees in separate locations, with implications for understanding its evolution and selective pressures.
Article Abstract
The microsporidian parasite Nosema ceranae is a common pathogen of the Western honeybee (Apis mellifera) whose variable virulence could be related to its genetic polymorphism and/or its polyphenism responding to environmental cues. Since the genotyping of N. ceranae based on unique marker sequences had been unsuccessful, we tested whether a multilocus approach, assessing the diversity of ten genetic markers – encoding nine proteins and the small ribosomal RNA subunit – allowed the discrimination between N. ceranae variants isolated from single A. mellifera individuals in four distant locations. High nucleotide diversity and allele content were observed for all genes. Most importantly, the diversity was mainly present within parasite populations isolated from single honeybee individuals. In contrast the absence of isolate differentiation precluded any taxa discrimination, even through a multilocus approach, but suggested that similar populations of parasites seem to infect honeybees in distant locations. As statistical evolutionary analyses showed that the allele frequency is under selective pressure, we discuss the origin and consequences of N. ceranae heterozygosity in a single host and lack of population divergence in the context of the parasite natural and evolutionary history.
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| http://dx.doi.org/10.1017/S0031182013001133 | DOI Listing |
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