@ARTICLE{TreeBASE2Ref2188,
author = {Christen Bossu and Thomas J Near and Christen Bossu and Thomas J Near},
title = {Gene Trees Reveal Repeated Instances of Mitochondrial DNA Introgression in Orangethroat Darters (Percidae: Etheostoma)},
year = {2009},
keywords = {},
doi = {10.1093/sysbio/syp014},
url = {},
pmid = {},
journal = {Systematic Biology},
volume = {58},
number = {1},
pages = {114--129},
abstract = {Phylogenies of closely related animal species are often inferred using mitochondrial DNA (mtDNA) gene sequences. The accuracy of mtDNA gene trees is compromised through hybridization that leads to introgression of mitochondrial genomes. Utilizing DNA sequences from six single copy nuclear genes and two regions of the mitochondrial genome, we investigated the temporal and geographic signature of mitochondrial and nuclear introgression in the Etheostoma spectabile darter clade. Phylogenetic analyses of the nuclear genes result in the monophyly of the E. spectabile clade; however, with respect to sampled specimens of five species (E. fragi, E. uniporum, E. pulchellum, E. burri, and E. spectabile), the mitochondrial phylogeny is inconsistent with E. spectabile clade monophyly. Etheostoma uniporum and E. fragi are both fixed for heterospecific mitochondrial genomes. Limited nuclear introgression is restricted to E. uniporum. Our analyses show the pattern of introgression is consistently asymmetric, with movement of heterospecific mitochondrial haplotypes and nuclear alleles into E. spectabile clade species, introgressive hybridization spans broad temporal scales, and introgression is restricted to species and populations in the Ozarks. The introgressed mitochondrial genome observed in E. fragi has an obscure phylogenetic placement among darters, an ancient age, and is possibly a mitochondrial fossil from an Etheostoma species that has subsequently gone extinct. These results indicate that introgression, both ancient and more contemporaneous, characterize the history of diversification in the E. spectabile species clade, and may be relatively common among clades comprising the species-rich North American freshwater fauna.}
}
Citation for Study 2251
Citation title:
"Gene Trees Reveal Repeated Instances of Mitochondrial DNA Introgression in Orangethroat Darters (Percidae: Etheostoma)".
This study was previously identified under the legacy study ID S2262
(Status: Published).
Citation
Bossu C., Near T.J., Bossu C., & Near T.J. 2009. Gene Trees Reveal Repeated Instances of Mitochondrial DNA Introgression in Orangethroat Darters (Percidae: Etheostoma). Systematic Biology, 58(1): 114-129.
Authors
-
Bossu C.
-
Near T.J.
203-432-3002
-
Bossu C.
-
Near T.J.
203-432-3002
Abstract
Phylogenies of closely related animal species are often inferred using mitochondrial DNA (mtDNA) gene sequences. The accuracy of mtDNA gene trees is compromised through hybridization that leads to introgression of mitochondrial genomes. Utilizing DNA sequences from six single copy nuclear genes and two regions of the mitochondrial genome, we investigated the temporal and geographic signature of mitochondrial and nuclear introgression in the Etheostoma spectabile darter clade. Phylogenetic analyses of the nuclear genes result in the monophyly of the E. spectabile clade; however, with respect to sampled specimens of five species (E. fragi, E. uniporum, E. pulchellum, E. burri, and E. spectabile), the mitochondrial phylogeny is inconsistent with E. spectabile clade monophyly. Etheostoma uniporum and E. fragi are both fixed for heterospecific mitochondrial genomes. Limited nuclear introgression is restricted to E. uniporum. Our analyses show the pattern of introgression is consistently asymmetric, with movement of heterospecific mitochondrial haplotypes and nuclear alleles into E. spectabile clade species, introgressive hybridization spans broad temporal scales, and introgression is restricted to species and populations in the Ozarks. The introgressed mitochondrial genome observed in E. fragi has an obscure phylogenetic placement among darters, an ancient age, and is possibly a mitochondrial fossil from an Etheostoma species that has subsequently gone extinct. These results indicate that introgression, both ancient and more contemporaneous, characterize the history of diversification in the E. spectabile species clade, and may be relatively common among clades comprising the species-rich North American freshwater fauna.
External links
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- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S2251
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref2188,
author = {Christen Bossu and Thomas J Near and Christen Bossu and Thomas J Near},
title = {Gene Trees Reveal Repeated Instances of Mitochondrial DNA Introgression in Orangethroat Darters (Percidae: Etheostoma)},
year = {2009},
keywords = {},
doi = {10.1093/sysbio/syp014},
url = {},
pmid = {},
journal = {Systematic Biology},
volume = {58},
number = {1},
pages = {114--129},
abstract = {Phylogenies of closely related animal species are often inferred using mitochondrial DNA (mtDNA) gene sequences. The accuracy of mtDNA gene trees is compromised through hybridization that leads to introgression of mitochondrial genomes. Utilizing DNA sequences from six single copy nuclear genes and two regions of the mitochondrial genome, we investigated the temporal and geographic signature of mitochondrial and nuclear introgression in the Etheostoma spectabile darter clade. Phylogenetic analyses of the nuclear genes result in the monophyly of the E. spectabile clade; however, with respect to sampled specimens of five species (E. fragi, E. uniporum, E. pulchellum, E. burri, and E. spectabile), the mitochondrial phylogeny is inconsistent with E. spectabile clade monophyly. Etheostoma uniporum and E. fragi are both fixed for heterospecific mitochondrial genomes. Limited nuclear introgression is restricted to E. uniporum. Our analyses show the pattern of introgression is consistently asymmetric, with movement of heterospecific mitochondrial haplotypes and nuclear alleles into E. spectabile clade species, introgressive hybridization spans broad temporal scales, and introgression is restricted to species and populations in the Ozarks. The introgressed mitochondrial genome observed in E. fragi has an obscure phylogenetic placement among darters, an ancient age, and is possibly a mitochondrial fossil from an Etheostoma species that has subsequently gone extinct. These results indicate that introgression, both ancient and more contemporaneous, characterize the history of diversification in the E. spectabile species clade, and may be relatively common among clades comprising the species-rich North American freshwater fauna.}
}
- Show RIS reference
TY - JOUR
ID - 2188
AU - Bossu,Christen
AU - Near,Thomas J
AU - Bossu,Christen
AU - Near,Thomas J
T1 - Gene Trees Reveal Repeated Instances of Mitochondrial DNA Introgression in Orangethroat Darters (Percidae: Etheostoma)
PY - 2009
KW -
UR - http://dx.doi.org/10.1093/sysbio/syp014
N2 - Phylogenies of closely related animal species are often inferred using mitochondrial DNA (mtDNA) gene sequences. The accuracy of mtDNA gene trees is compromised through hybridization that leads to introgression of mitochondrial genomes. Utilizing DNA sequences from six single copy nuclear genes and two regions of the mitochondrial genome, we investigated the temporal and geographic signature of mitochondrial and nuclear introgression in the Etheostoma spectabile darter clade. Phylogenetic analyses of the nuclear genes result in the monophyly of the E. spectabile clade; however, with respect to sampled specimens of five species (E. fragi, E. uniporum, E. pulchellum, E. burri, and E. spectabile), the mitochondrial phylogeny is inconsistent with E. spectabile clade monophyly. Etheostoma uniporum and E. fragi are both fixed for heterospecific mitochondrial genomes. Limited nuclear introgression is restricted to E. uniporum. Our analyses show the pattern of introgression is consistently asymmetric, with movement of heterospecific mitochondrial haplotypes and nuclear alleles into E. spectabile clade species, introgressive hybridization spans broad temporal scales, and introgression is restricted to species and populations in the Ozarks. The introgressed mitochondrial genome observed in E. fragi has an obscure phylogenetic placement among darters, an ancient age, and is possibly a mitochondrial fossil from an Etheostoma species that has subsequently gone extinct. These results indicate that introgression, both ancient and more contemporaneous, characterize the history of diversification in the E. spectabile species clade, and may be relatively common among clades comprising the species-rich North American freshwater fauna.
L3 - 10.1093/sysbio/syp014
JF - Systematic Biology
VL - 58
IS - 1
SP - 114
EP - 129
ER -