The Power of the Methods for Detecting Interlocus Gene Conversion

Interlocus gene conversion can homogenize DNA sequences of duplicated regions with high homology. Such nonvertical events sometimes cause a misleading evolutionary interpretation of data when the effect of gene conversion is ignored. To avoid this problem, it is crucial to test the data for the presence of gene conversion. Here, we performed extensive simulations to compare four major methods to detect gene conversion. One might expect that the power increases with increase of the gene conversion rate. However, we found this is true for only two methods. For the other two, limited power is expected when gene conversion is too frequent. We suggest using multiple methods to minimize the chance of missing the footprint of gene conversion.

[1]  Kevin R. Thornton,et al.  Excess of amino acid substitutions relative to polymorphism between X-linked duplications in Drosophila melanogaster. , 2004, Molecular biology and evolution.

[2]  G. McVean,et al.  Estimating recombination rates from population-genetic data , 2003, Nature Reviews Genetics.

[3]  J. Haber,et al.  Gene conversions and crossing over during homologous and homeologous ectopic recombination in Saccharomyces cerevisiae. , 1993, Genetics.

[4]  M. Tassabehji,et al.  A de novo pathological point mutation at the 21–hydroxylase locus: implications for gene conversion in the human genome , 1993, Nature Genetics.

[5]  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.

[6]  Guy Drouin,et al.  Characterization of the Gene Conversions Between the Multigene Family Members of the Yeast Genome , 2002, Journal of Molecular Evolution.

[7]  H. Innan A method for estimating the mutation, gene conversion and recombination parameters in small multigene families. , 2002, Genetics.

[8]  N. Saitou,et al.  The neighbor-joining method: a new method for reconstructing phylogenetic trees. , 1987, Molecular biology and evolution.

[9]  H. Innan The coalescent and infinite-site model of a small multigene family. , 2003, Genetics.

[10]  G. McGuire,et al.  A graphical method for detecting recombination in phylogenetic data sets. , 1997, Molecular biology and evolution.

[11]  A. Goldman,et al.  The efficiency of meiotic recombination between dispersed sequences in Saccharomyces cerevisiae depends upon their chromosomal location. , 1996, Genetics.

[12]  Matthew W Hahn,et al.  Minimal Effect of Ectopic Gene Conversion Among Recent Duplicates in Four Mammalian Genomes , 2009, Genetics.

[13]  J. Roman Arguello,et al.  Origination of an X-Linked Testes Chimeric Gene by Illegitimate Recombination in Drosophila , 2006, PLoS genetics.

[14]  T. Petes,et al.  Recombination between repeated genes in microorganisms. , 1988, Annual review of genetics.

[15]  太田 朋子 Evolution and variation of multigene families , 1980 .

[16]  S. Sawyer Statistical tests for detecting gene conversion. , 1989, Molecular biology and evolution.

[17]  E. Betrán,et al.  The estimation of the number and the length distribution of gene conversion tracts from population DNA sequence data. , 1997, Genetics.

[18]  G. McVean,et al.  Estimating Meiotic Gene Conversion Rates From Population Genetic Data , 2007, Genetics.

[19]  A. Jeffreys,et al.  Intense and highly localized gene conversion activity in human meiotic crossover hot spots , 2004, Nature Genetics.

[20]  Hideki Innan,et al.  Very Low Gene Duplication Rate in the Yeast Genome , 2004, Science.

[21]  S. Easteal,et al.  The partition matrix: exploring variable phylogenetic signals along nucleotide sequence alignments. , 1997, Molecular biology and evolution.

[22]  G. Drouin,et al.  Detecting and characterizing gene conversions between multigene family members. , 1999, Molecular biology and evolution.

[23]  B. Gaut,et al.  Gene conversion and the evolution of three leucine-rich repeat gene families in Arabidopsis thaliana. , 2005, Molecular biology and evolution.

[24]  J. Stephens,et al.  Statistical methods of DNA sequence analysis: detection of intragenic recombination or gene conversion. , 1985, Molecular biology and evolution.

[25]  Hideki Innan,et al.  The Effect of Gene Conversion on the Divergence Between Duplicated Genes , 2004, Genetics.

[26]  H. Innan,et al.  Estimating the Time to the Whole-Genome Duplication and the Duration of Concerted Evolution via Gene Conversion in Yeast , 2005, Genetics.

[27]  Hideki Innan,et al.  Duplication and Gene Conversion in the Drosophila melanogaster Genome , 2008, PLoS genetics.

[28]  K. Crandall,et al.  Evaluation of methods for detecting recombination from DNA sequences: Computer simulations , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[29]  P. C. Wensink,et al.  A comparison of the ribosomal DNA's of Xenopus laevis and Xenopus mulleri: the evolution of tandem genes. , 1972, Journal of molecular biology.

[30]  D. Posada Evaluation of methods for detecting recombination from DNA sequences: empirical data. , 2002, Molecular biology and evolution.

[31]  P. H. A. Sneath,et al.  Detecting Evolutionary Incompatibilities From Protein Sequences , 1975 .

[32]  J. Farris The Hypothesis of Nonspecificity and Taxonomic Congruence , 1971 .

[33]  Guy Drouin,et al.  Ectopic gene conversions in the human genome. , 2009, Genomics.

[34]  D. Balding,et al.  Detecting gene conversion: primate visual pigment genes , 1992, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[35]  D. Cooper,et al.  Gene conversion: mechanisms, evolution and human disease , 2007, Nature Reviews Genetics.

[36]  G. Dover,et al.  Molecular drive: a cohesive mode of species evolution , 1982, Nature.

[37]  R. Hudson Two-locus sampling distributions and their application. , 2001, Genetics.

[38]  Naruya Saitou,et al.  Genome-Wide Search of Gene Conversions in Duplicated Genes of Mouse and Rat , 2006 .

[39]  G. Weiller Phylogenetic profiles: a graphical method for detecting genetic recombinations in homologous sequences. , 1998, Molecular biology and evolution.