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  1. Speciation: Goldschmidt’s Chromosomal Heresy, Once Supported by Gould and Dawkins, is Again Reinstated.Donald R. Forsdyke - 2017 - Biological Theory 12 (1):4-12.
    The view that the initiation of branching into two sympatric species may not require natural selection emerged in Victorian times. In the 1980s paleontologist Stephen Jay Gould gave a theoretical underpinning of this nongenic “chromosomal” view, thus reinstating Richard Goldschmidt’s “heresy” of the 1930s. From modeling studies with computer-generated “biomorphs,” zoologist Richard Dawkins also affirmed Goldschmidt, proclaiming the “evolution of evolvability.” However, in the 1990s, while Gould and Dawkins were recanting, bioinformatic, biochemical, and cytological studies were providing a deeper underpinning. (...)
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  • Meiotic Pairing Inadequacies at the Levels of X Chromosome, Gene, or Base: Epigenetic Tagging for Transgenerational Error-Correction Guided by a Future Homologous Duplex.Virgil R. Reese & Donald R. Forsdyke - 2016 - Biological Theory 11 (3):150-157.
    In contrast to the two X chromosomes that participate equally in oogenic meiosis in mammals, during spermatogenesis the solitary X chromosome can be regarded as an inadequate pairing partner for the Y chromosome. Hence it is epigenetically silenced and consigned to the XY body. This silenced state can transfer between generations. The sleeping X will awake when in a female cell with an accompanying maternally donated X chromosome. Transgene experiments in nematodes indicate that a similar process can operate at the (...)
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  • Mitochondrial bioenergetics as a major motive force of speciation.Moran Gershoni, Alan R. Templeton & Dan Mishmar - 2009 - Bioessays 31 (6):642-650.
    Mitochondrial bioenergetics plays a key role in multiple basic cellular processes, such as energy production, nucleotide biosynthesis, and iron metabolism. It is an essential system for animals' life and death (apoptosis) and it is required for embryo development. This, in conjunction with its being subjected to adaptive processes in multiple species and its gene products being involved in the formation of reproductive barriers in animals, raises the possibility that mitochondrial bioenergetics could be a candidate genetic mechanism of speciation. Here, we (...)
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