The contribution of recombination to heterozygosity differs among plant evolutionary lineages and life-forms |
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| Authors: | Juan P Jaramillo-Correa Miguel Verdú Santiago C González-Martínez |
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| Affiliation: | 1.Departamento de Sistemas y Recursos Forestales,Centro de Investigación Forestal, CIFOR-INIA,Madrid,Spain;2.CIDE,Centro de Investigaciones sobre Desertificación (CSIC-UV-GV).,Albal, València,Spain;3.Departamento de Ecología Evolutiva, Instituto de Ecología, Universidad Nacional Autónoma de México,Ciudad Universitaria, Tercer circuito Exterior,México, DF |
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| Abstract: | Background Despite its role as a generator of haplotypic variation, little is known about how the rates of recombination evolve across taxa. Recombination is a very labile force, susceptible to evolutionary and life trait related processes, which have also been correlated with general levels of genetic diversity. For example, in plants, it has been shown that long-lived outcrossing taxa, such as trees, have higher heterozygosity (H e) at SSRs and allozymes than selfing or annual species. However, some of these tree taxa have surprisingly low levels of nucleotide diversity at the DNA sequence level, which points to recombination as a potential generator of genetic diversity in these organisms. In this study, we examine how genome-wide and within-gene rates of recombination evolve across plant taxa, determine whether such rates are influenced by the life-form adopted by species, and evaluate if higher genome-wide rates of recombination translate into higher H e values, especially in trees. |
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