Genome evolution and biodiversity in teleost fish
TL;DR: Comparison of data generated by current and future genome projects as well as complementary studies in other species will allow one to approach the molecular and evolutionary mechanisms underlying genome diversity in fish, and will certainly significantly contribute to the understanding of gene evolution and function in humans and other vertebrates.
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Abstract: Teleost fish, which roughly make up half of the extant vertebrate species, exhibit an amazing level of biodiversity affecting their morphology, ecology and behaviour as well as many other aspects of their biology. This huge variability makes fish extremely attractive for the study of many biological questions, particularly of those related to evolution. New insights gained from different teleost species and sequencing projects have recently revealed several peculiar features of fish genomes that might have played a role in fish evolution and speciation. There is now substantial evidence that a round of tetraploidization/rediploidization has taken place during the early evolution of the ray-finned fish lineage, and that hundreds of duplicate pairs generated by this event have been maintained over hundreds of millions of years of evolution. Differential loss or subfunction partitioning of such gene duplicates might have been involved in the generation of fish variability. In contrast to mammalian genomes, teleost genomes also contain multiple families of active transposable elements, which might have played a role in speciation by affecting hybrid sterility and viability. Finally, the amazing diversity of sex determination systems and the plasticity of sex chromosomes observed in teleost might have been involved in both pre- and postmating reproductive isolation. Comparison of data generated by current and future genome projects as well as complementary studies in other species will allow one to approach the molecular and evolutionary mechanisms underlying genome diversity in fish, and will certainly significantly contribute to our understanding of gene evolution and function in humans and other vertebrates.
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Genome duplication in the teleost fish Tetraodon nigroviridis reveals the early vertebrate proto-karyotype
Olivier Jaillon,Jean-Marc Aury,Frédéric Brunet,Jean-Louis Petit,Nicole Stange-Thomann,Evan Mauceli,Laurence Bouneau,Cécile Fischer,Catherine Ozouf-Costaz,Alain Bernot,Sophie Nicaud,David M. Jaffe,Sheila Fisher,Georges Lutfalla,Carole Dossat,Béatrice Segurens,Corinne Dasilva,Marcel Salanoubat,Michael Levy,Nathalie Boudet,Sergi Castellano,Véronique Anthouard,Claire Jubin,Vanina Castelli,Michael Katinka,Benoit Vacherie,Christian Biémont,Zineb Skalli,Laurence Cattolico,Julie Poulain,Véronique de Berardinis,Corinne Cruaud,Simone Duprat,Philippe Brottier,Jean-Pierre Coutanceau,Jérôme Gouzy,Genís Parra,Guillaume Lardier,Charles Chapple,Kevin McKernan,Paul A. McEwan,Stephanie Bosak,Manolis Kellis,Jean-Nicolas Volff,Roderic Guigó,Michael C. Zody,Jill P. Mesirov,Kerstin Lindblad-Toh,Bruce W. Birren,Chad Nusbaum,Daniel Kahn,Marc Robinson-Rechavi,Vincent Laudet,Vincent Schächter,Francis Quetier,William Saurin,Claude Scarpelli,Patrick Wincker,Eric S. Lander,Eric S. Lander,Jean Weissenbach,Hugues Roest Crollius,Hugues Roest Crollius +62 more
TL;DR: Genome analysis provides a greatly improved fish gene catalogue, including identifying key genes previously thought to be absent in fish, and reconstructs much of the evolutionary history of ancient and recent chromosome rearrangements leading to the modern human karyotype.
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