Large Global Effective Population Sizes in Paramecium | Zendy

Margaret S. Snoke | Zendy; Thomas U. Berendonk | Zendy; Dana Barth | Zendy; Michael Lynch | Zendy

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Large Global Effective Population Sizes in Paramecium

Author(s) -

Margaret S. Snoke,

Thomas U. Berendonk,

Dana Barth,

Michael Lynch

Publication year - 2006

Publication title -

molecular biology and evolution

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.637

H-Index - 218

eISSN - 1537-1719

pISSN - 0737-4038

DOI - 10.1093/molbev/msl128

Subject(s) - biology , paramecium , evolutionary biology , population , taxon , selection (genetic algorithm) , ecology , host (biology) , biochemistry , demography , artificial intelligence , sociology , computer science

The genetic effective population size (N(e)) of a species is an important parameter for understanding evolutionary dynamics because it mediates the relative effects of selection. However, because most N(e) estimates for unicellular organisms are derived either from taxa with poorly understood species boundaries or from host-restricted pathogens and most unicellular species have prominent phases of clonal propagation potentially subject to strong selective sweeps, the hypothesis that N(e) is elevated in single-celled organisms remains controversial. Drawing from observations on well-defined species within the genus Paramecium, we report exceptionally high levels of silent-site polymorphism, which appear to be a reflection of large N(e).

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