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  1. The evolution of meiosis: Recruitment and modification of somatic DNA-repair proteins.Edyta Marcon & Peter B. Moens - 2005 - Bioessays 27 (8):795-808.
    Several DNA-damage detection and repair mechanisms have evolved to repair double-strand breaks induced by mutagens. Later in evolutionary history, DNA single- and double-strand cuts made possible immune diversity by V(D)J recombination and recombination at meiosis. Such cuts are induced endogenously and are highly regulated and controlled. In meiosis, DNA cuts are essential for the initiation of homologous recombination, and for the formation of joint molecule and crossovers. Many proteins that function during somatic DNA-damage detection and repair are also active during (...)
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  • All Eukaryotes Are Sexual, unless Proven Otherwise.Paulo G. Hofstatter & Daniel J. G. Lahr - 2019 - Bioessays 41 (6):1800246.
    Here a wide distribution of meiotic machinery is shown, indicating the occurrence of sexual processes in all major eukaryotic groups, without exceptions, including the putative “asexuals.” Meiotic machinery has evolved from archaeal DNA repair machinery by means of ancestral gene duplications. Sex is very conserved and widespread in eukaryotes, even though its evolutionary importance is still a matter of debate. The main processes in sex are plasmogamy, followed by karyogamy and meiosis. Meiosis is fundamentally a chromosomal process, which implies recombination (...)
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  • Using a meiosis detection toolkit to investigate ancient asexual “scandals” and the evolution of sex.Andrew M. Schurko & John M. Logsdon - 2008 - Bioessays 30 (6):579-589.
    Sexual reproduction is the dominant reproductive mode in eukaryotes but, in many taxa, it has never been observed. Molecular methods that detect evidence of sex are largely based on the genetic consequences of sexual reproduction. Here we describe a powerful new approach to directly search genomes for genes that function in meiosis. We describe a “meiosis detection toolkit”, a set of meiotic genes that represent the best markers for the presence of meiosis. These genes are widely present in eukaryotes, function (...)
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