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SYNTHESIS OF CLONALITY AND POLYPLOIDY IN VERTEBRATE ANIMALS BY HYBRIDIZATION BETWEEN TWO SEXUAL SPECIES

Because most clonal vertebrates have hybrid genomic constitutions, tight linkages are assumed among hybridization, clonality, and polyploidy. However, predictions about how these processes mechanistically relate during the switch from sexual to clonal reproduction have not been validated. Therefore,...

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Published in:	Evolution 2012-07, Vol.66 (7), p.2191-2203
Main Authors:	Choleva, Lukáš, Janko, Karel, De Gelas, Koen, Bohlen, Jörg, Šlechtová, Věra, Rábová, Marie, Ráb, Petr
Format:	Article
Language:	English
Subjects:	Animals Apomixis Asexual reproduction Biological Evolution Cloning Cobitis crossing experiment Cypriniformes - genetics Czech Republic Diploidy Evolution Evolution & development Evolutionary genetics Female Female animals Fish Fish Proteins - genetics Germany gynogenesis Hybridity Hybridization, Genetic Male Male animals Molecular Sequence Data Polymerase Chain Reaction Polyploidy premeiotic doubling Protein synthesis Reproduction Reproduction, Asexual Sequence Analysis, DNA Sexual reproduction Slovenia unisexual Vertebrates
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container_title	Evolution
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creator	Choleva, Lukáš Janko, Karel De Gelas, Koen Bohlen, Jörg Šlechtová, Věra Rábová, Marie Ráb, Petr
description	Because most clonal vertebrates have hybrid genomic constitutions, tight linkages are assumed among hybridization, clonality, and polyploidy. However, predictions about how these processes mechanistically relate during the switch from sexual to clonal reproduction have not been validated. Therefore, we performed a crossing experiment to test the hypothesis that interspecific hybridization per se initiated clonal diploid and triploid spined loaches (Cobitis) and their gynogenetic reproduction. We reared two F1 families resulting from the crossing of 14 pairs of two sexual species, and found their diploid hybrid constitution and a 1:1 sex ratio. While males were infertile, females produced unreduced nonrecombinant eggs (100%). Synthetic triploid females and males (96.3%) resulted in each of nine backcrossed families from eggs of synthesized diploid F1s fertilized by haploid sperm from sexual males. Five individuals (3.7%) from one backcross family were genetically identical to the somatic cells of the mother and originated via gynogenesis; the sperm of the sexual male only triggered clonal development of the egg. Our reconstruction of the evolutionary route from sexuality to clonality and polyploidy in these fish shows that clonality and gynogenesis may have been directly triggered by interspecific hybridization and that polyploidy is a consequence, not a cause, of clonality.
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subjects	Animals Apomixis Asexual reproduction Biological Evolution Cloning Cobitis crossing experiment Cypriniformes - genetics Czech Republic Diploidy Evolution Evolution & development Evolutionary genetics Female Female animals Fish Fish Proteins - genetics Germany gynogenesis Hybridity Hybridization, Genetic Male Male animals Molecular Sequence Data Polymerase Chain Reaction Polyploidy premeiotic doubling Protein synthesis Reproduction Reproduction, Asexual Sequence Analysis, DNA Sexual reproduction Slovenia unisexual Vertebrates
title	SYNTHESIS OF CLONALITY AND POLYPLOIDY IN VERTEBRATE ANIMALS BY HYBRIDIZATION BETWEEN TWO SEXUAL SPECIES
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