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NextGen sequencing reveals short double crossovers contribute disproportionately to genetic diversity in Toxoplasma gondii
Authors:Asis Khan  Jahangheer S Shaik  Michael Behnke  Qiuling Wang  Jitender P Dubey  Hernan A Lorenzi  James W Ajioka  Benjamin M Rosenthal  L David Sibley
Abstract:

Background

Toxoplasma gondii is a widespread protozoan parasite of animals that causes zoonotic disease in humans. Three clonal variants predominate in North America and Europe, while South American strains are genetically diverse, and undergo more frequent recombination. All three northern clonal variants share a monomorphic version of chromosome Ia (ChrIa), which is also found in unrelated, but successful southern lineages. Although this pattern could reflect a selective advantage, it might also arise from non-Mendelian segregation during meiosis. To understand the inheritance of ChrIa, we performed a genetic cross between the northern clonal type 2 ME49 strain and a divergent southern type 10 strain called VAND, which harbors a divergent ChrIa.

Results

NextGen sequencing of haploid F1 progeny was used to generate a genetic map revealing a low level of conventional recombination, with an unexpectedly high frequency of short, double crossovers. Notably, both the monomorphic and divergent versions of ChrIa were isolated with equal frequency. As well, ChrIa showed no evidence of being a sex chromosome, of harboring an inversion, or distorting patterns of segregation. Although VAND was unable to self fertilize in the cat, it underwent successful out-crossing with ME49 and hybrid survival was strongly associated with inheritance of ChrIII from ME49 and ChrIb from VAND.

Conclusions

Our findings suggest that the successful spread of the monomorphic ChrIa in the wild has not been driven by meiotic drive or related processes, but rather is due to a fitness advantage. As well, the high frequency of short double crossovers is expected to greatly increase genetic diversity among progeny from genetic crosses, thereby providing an unexpected and likely important source of diversity.

Electronic supplementary material

The online version of this article (doi:10.1186/1471-2164-15-1168) contains supplementary material, which is available to authorized users.
Keywords:Gene conversion   Genetic mapping   Meiotic drive   Mendelian inheritance   Double crossover   Gene conversion
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