Birth-and-Death Long-Term Evolution Promotes Histone H2B Variant Diversification in the Male Germinal Cell Line

2010 
The rich diversity within each of the five histone families (H1, H2A, H2B, H3, and H4) can hardly be reconciled with the notion of homogenizing evolution. The prevalence of birth-and-death long-term evolution over concerted evolution has already been demonstrated in the linker histone H1 family as well as for the H2A, H3, and H4 core histone families. However, information about histone H2B is lacking. In the present work, we have analyzed the diversity of the members of this histone family across different eukaryotic genomes and have characterized the mechanisms involved in their long-term evolution. Our results reveal that, quite in contrast with other histones, H2B variants are subject to a very rapid process of diversification that primarily affects the male germinal cell lineage and involves their functional specialization probably as a consequence of neofunctionalization and subfunctionalization events after gene duplication. The overall parallelism observed between the molecular phylogenies and the relationships among the electrostatic potentials of the different variants suggests that the latter may have played a major structural selective constraint during H2B evolution. It thus seems that the reorganization of chromatin structure during spermiogenesis might have affected the evolutionary constraints driving histone H2B evolution, leading to an increase in diversity.
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