The evolution of gene duplications: classifying and distinguishing between models
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[1] Matthew W. Hahn,et al. Distinguishing among evolutionary models for the maintenance of gene duplicates. , 2009, The Journal of heredity.
[2] H. Innan. Population genetic models of duplicated genes , 2009, Genetica.
[3] L. Hurst. Genetics and the understanding of selection , 2009, Nature Reviews Genetics.
[4] Mihaela M. Martis,et al. The Sorghum bicolor genome and the diversification of grasses , 2009, Nature.
[5] Hideki Innan,et al. Duplication and Gene Conversion in the Drosophila melanogaster Genome , 2008, PLoS genetics.
[6] Kenneth H. Wolfe,et al. Turning a hobby into a job: How duplicated genes find new functions , 2008, Nature Reviews Genetics.
[7] Chris P. Ponting,et al. The functional repertoires of metazoan genomes , 2008, Nature Reviews Genetics.
[8] T. Nishio,et al. Preservation of a Pseudogene by Gene Conversion and Diversifying Selection , 2008, Genetics.
[9] S. Mano,et al. The Evolutionary Rate of Duplicated Genes Under Concerted Evolution , 2008, Genetics.
[10] Mark D. Rausher,et al. Escape from adaptive conflict after duplication in an anthocyanin pathway gene , 2008, Nature.
[11] Justin O. Borevitz,et al. Natural Selection Shapes Genome-Wide Patterns of Copy-Number Polymorphism in Drosophila melanogaster , 2008, Science.
[12] Kosuke M. Teshima,et al. Neofunctionalization of Duplicated Genes Under the Pressure of Gene Conversion , 2008, Genetics.
[13] Ariel Fernández,et al. Protein Under-Wrapping Causes Dosage Sensitivity and Decreases Gene Duplicability , 2007, PLoS genetics.
[14] Henrik Kaessmann,et al. Functional diversification of duplicate genes through subcellular adaptation of encoded proteins , 2008, Genome Biology.
[15] G. Wagner,et al. The road to modularity , 2007, Nature Reviews Genetics.
[16] T. Vision,et al. Divergence in expression between duplicated genes in Arabidopsis. , 2007, Molecular biology and evolution.
[17] D. Cooper,et al. Gene conversion: mechanisms, evolution and human disease , 2007, Nature Reviews Genetics.
[18] Fernando A. Villanea,et al. Diet and the evolution of human amylase gene copy number variation , 2007, Nature Genetics.
[19] R. Geeta,et al. Protein subcellular relocalization: a new perspective on the origin of novel genes. , 2007, Trends in ecology & evolution.
[20] R. Redon,et al. Relative Impact of Nucleotide and Copy Number Variation on Gene Expression Phenotypes , 2007, Science.
[21] R. Veitia,et al. The Gene Balance Hypothesis: From Classical Genetics to Modern Genomics , 2007, The Plant Cell Online.
[22] Michael Lynch,et al. The Origins of Genome Architecture , 2007 .
[23] H. Innan,et al. Selection for more of the same product as a force to enhance concerted evolution of duplicated genes. , 2006, Trends in genetics : TIG.
[24] D. Conrad,et al. Global variation in copy number in the human genome , 2006, Nature.
[25] Todd H. Oakley,et al. Repression and loss of gene expression outpaces activation and gain in recently duplicated fly genes. , 2006, Proceedings of the National Academy of Sciences of the United States of America.
[26] E. Eichler,et al. Primate segmental duplications: crucibles of evolution, diversity and disease , 2006, Nature Reviews Genetics.
[27] Annie P. Chiang,et al. Genome‐wide identification of pseudogenes capable of disease‐causing gene conversion , 2006, Human mutation.
[28] Naruya Saitou,et al. Genome-Wide Search of Gene Conversions in Duplicated Genes of Mouse and Rat , 2006 .
[29] Patrick C Phillips,et al. ALLELIC DIVERGENCE PRECEDES AND PROMOTES GENE DUPLICATION , 2006, Evolution; international journal of organic evolution.
[30] M. Lynch,et al. On the formation of novel genes by duplication in the Caenorhabditis elegans genome. , 2006, Molecular biology and evolution.
[31] A. Kondrashov,et al. Role of selection in fixation of gene duplications. , 2006, Journal of theoretical biology.
[32] N. Vinckenbosch,et al. Evolutionary fate of retroposed gene copies in the human genome. , 2006, Proceedings of the National Academy of Sciences of the United States of America.
[33] R. Nielsen. Molecular signatures of natural selection. , 2005, Annual review of genetics.
[34] X. Gu,et al. Expression divergence between duplicate genes. , 2005, Trends in genetics : TIG.
[35] M. P. Francino,et al. An adaptive radiation model for the origin of new gene functions , 2005, Nature Genetics.
[36] D. Liberles,et al. Subfunctionalization of duplicated genes as a transition state to neofunctionalization , 2005, BMC Evolutionary Biology.
[37] R. Veitia. Gene dosage balance: deletions, duplications and dominance. , 2005, Trends in genetics : TIG.
[38] Dan S. Tawfik,et al. The 'evolvability' of promiscuous protein functions , 2005, Nature Genetics.
[39] Hideki Innan,et al. Very Low Gene Duplication Rate in the Yeast Genome , 2004, Science.
[40] M. Lynch,et al. The altered evolutionary trajectories of gene duplicates. , 2004, Trends in genetics : TIG.
[41] Yves Van de Peer,et al. Computational approaches to unveiling ancient genome duplications , 2004, Nature Reviews Genetics.
[42] Kenny Q. Ye,et al. Large-Scale Copy Number Polymorphism in the Human Genome , 2004, Science.
[43] Eugene V Koonin,et al. A common framework for understanding the origin of genetic dominance and evolutionary fates of gene duplications. , 2004, Trends in genetics : TIG.
[44] Hideki Innan,et al. The Effect of Gene Conversion on the Divergence Between Duplicated Genes , 2004, Genetics.
[45] B. Walsh. Population-Genetic Models of the Fates of Duplicate Genes , 2003, Genetica.
[46] Richard C. Moore,et al. The early stages of duplicate gene evolution , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[47] Kevin R. Thornton,et al. The origin of new genes: glimpses from the young and old , 2003, Nature Reviews Genetics.
[48] Janel O. Johnson,et al. α-Synuclein Locus Triplication Causes Parkinson's Disease , 2003, Science.
[49] H. Innan. A two-locus gene conversion model with selection and its application to the human RHCE and RHD genes , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[50] C. Pál,et al. Dosage sensitivity and the evolution of gene families in yeast , 2003, Nature.
[51] Dan S. Tawfik,et al. Conformational diversity and protein evolution--a 60-year-old hypothesis revisited. , 2003, Trends in biochemical sciences.
[52] Steve Rozen,et al. Abundant gene conversion between arms of palindromes in human and ape Y chromosomes , 2003, Nature.
[53] H. Innan. The coalescent and infinite-site model of a small multigene family. , 2003, Genetics.
[54] Thomas Blumenthal,et al. Coexpression of neighboring genes in Caenorhabditis elegans is mostly due to operons and duplicate genes. , 2003, Genome research.
[55] W. Potts,et al. MHC heterozygosity confers a selective advantage against multiple-strain infections , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[56] S. Otto,et al. The evolution of gene duplicates. , 2002, Advances in genetics.
[57] E. Koonin,et al. Selection in the evolution of gene duplications , 2002, Genome Biology.
[58] A. Force,et al. The probability of preservation of a newly arisen gene duplicate. , 2001, Genetics.
[59] A. Clark,et al. Differential selection after duplication in mammalian developmental genes. , 2001, Molecular biology and evolution.
[60] A. Force,et al. The probability of duplicate gene preservation by subfunctionalization. , 2000, Genetics.
[61] M. Kreitman,et al. Methods to detect selection in populations with applications to the human. , 2000, Annual review of genomics and human genetics.
[62] A. Stoltzfus. On the Possibility of Constructive Neutral Evolution , 1999, Journal of Molecular Evolution.
[63] P. Rochard,et al. Quantitative variation and selection of esterase gene amplification in Culex pipiens , 1999, Heredity.
[64] Kenneth H. Wolfe,et al. Gene Duplication and Gene Conversion in the Caenorhabditis elegans Genome , 1999, Journal of Molecular Evolution.
[65] A. Force,et al. Preservation of duplicate genes by complementary, degenerative mutations. , 1999, Genetics.
[66] C. Brown,et al. Multiple duplications of yeast hexose transport genes in response to selection in a glucose-limited environment. , 1998, Molecular biology and evolution.
[67] K. H. Wolfe,et al. Molecular evidence for an ancient duplication of the entire yeast genome , 1997, Nature.
[68] R Palacios,et al. Gene amplification and genomic plasticity in prokaryotes. , 1997, Annual review of genetics.
[69] J. B. Walsh,et al. How often do duplicated genes evolve new functions? , 1995, Genetics.
[70] A. Hughes. The evolution of functionally novel proteins after gene duplication , 1994, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[71] A. Clark,et al. Invasion and maintenance of a gene duplication. , 1994, Proceedings of the National Academy of Sciences of the United States of America.
[72] M. Long,et al. Natural selection and the origin of jingwei, a chimeric processed functional gene in Drosophila. , 1993, Science.
[73] T. Ohta,et al. Role of diversifying selection and gene conversion in evolution of major histocompatibility complex loci. , 1991, Proceedings of the National Academy of Sciences of the United States of America.
[74] W E O'Brien,et al. Gene sharing by delta-crystallin and argininosuccinate lyase. , 1988, Proceedings of the National Academy of Sciences of the United States of America.
[75] T. Petes,et al. Recombination between repeated genes in microorganisms. , 1988, Annual review of genetics.
[76] M. Taira,et al. Gene Amplification , 2020, Definitions.
[77] G. A. Watterson,et al. On the time for gene silencing at duplicate Loci. , 1983, Genetics.
[78] T Ohta,et al. Allelic and nonallelic homology of a supergene family. , 1982, Proceedings of the National Academy of Sciences of the United States of America.
[79] A. L. Koch. Evolution of antibiotic resistance gene function , 1981, Microbiological reviews.
[80] W. Li,et al. Rate of gene silencing at duplicate loci: a theoretical study and interpretation of data from tetraploid fishes. , 1980, Genetics.
[81] J. L. King,et al. Fixation of a deleterious allele at one of two "duplicate" loci by mutation pressure and random drift. , 1979, Proceedings of the National Academy of Sciences of the United States of America.
[82] J R Roth,et al. Tandem genetic duplications in phage and bacteria. , 1977, Annual review of microbiology.
[83] R. Zinkernagel,et al. A BIOLOGICAL ROLE FOR THE MAJOR HISTOCOMPATIBILITY ANTIGENS , 1975, The Lancet.
[84] Dr. Susumu Ohno. Evolution by Gene Duplication , 1970, Springer Berlin Heidelberg.
[85] J. B. Spofford. Heterosis and the Evolution of Duplications , 1969, The American Naturalist.
[86] M. Nei,et al. Gene Duplication and Nucleotide Substitution in Evolution , 1969, Nature.
[87] R. Fisher,et al. The Sheltering of Lethals , 1935, The American Naturalist.
[88] Sewall Wright,et al. Physiological and Evolutionary Theories of Dominance , 1934, The American Naturalist.
[89] J. Haldane,et al. The Part Played by Recurrent Mutation in Evolution , 1933, The American Naturalist.
[90] Rory A. Fisher,et al. The Possible Modification of the Response of the Wild Type to Recurrent Mutations , 1928, The American Naturalist.
[91] H J Muller,et al. Genetic Variability, Twin Hybrids and Constant Hybrids, in a Case of Balanced Lethal Factors. , 1918, Genetics.