@ARTICLE{TreeBASE2Ref18228,
author = {Tingshuang Yi and A. J. Miller and Jun Wen},
title = {The phylogenetic relationships of Rhus (Anacardiaceae) based on sequences of nuclear NIA-i3 intron and chloroplast trnC-D suggests reticulate evolution},
year = {2007},
keywords = {},
doi = {},
url = {},
pmid = {},
journal = {Systematic Botany},
volume = {},
number = {},
pages = {},
abstract = {A phylogenetic analysis of Rhus (Anacardiaceae) was conducted using nuclear and chloroplast sequences. The nuclear (NIA-i3) and chloroplast (trnC-trnD) sequence data generated in this study were compared with previously published phylogenies of Rhus based on nuclear ribosomal ITS data and chloroplast trnL-F and ndhF sequences. The NIA-i3 data provided more parsimony-informative characters than ITS; the trnC-trnD data provided the most parsimony-informative characters among three chloroplast markers. All data sets support the monophyly of Rhus. Within Rhus, the nuclear data support the monophyly of subgen. Lobadium and the monophyly of subgen. Rhus. The chloroplast data suggest a paraphyletic subgenus Lobadium with R. microphylla and R. rubifolia of subgen. Lobadium placed within subgen. Rhus. Rhus coriaria and R. michauxii of subgen. Rhus also have discordant positions in the cpDNA and the nuclear trees. Incongruence among nuclear and chloroplast datasets, together with the phylogenetic positions, sympatric distributions, and morphological intermediacy of discordant taxa suggest possible reticulate evolution among members of Rhus. Yet each species with discordant positions (R. coriaria, R. microphylla, R. michauxii and R. rubifolia) has a single allele or different alleles of the same species forming a monophyletic group in the nuclear ITS and NIA-i3 data. This phenomenon may be due to more ancient origin of these species involving reticulate evolution.}
}
Citation for Study 1797
Citation title:
"The phylogenetic relationships of Rhus (Anacardiaceae) based on sequences of nuclear NIA-i3 intron and chloroplast trnC-D suggests reticulate evolution".
This study was previously identified under the legacy study ID S1770
(Status: Published).
Citation
Yi T., Miller A., & Wen J. 2007. The phylogenetic relationships of Rhus (Anacardiaceae) based on sequences of nuclear NIA-i3 intron and chloroplast trnC-D suggests reticulate evolution. Systematic Botany, null.
Authors
Abstract
A phylogenetic analysis of Rhus (Anacardiaceae) was conducted using nuclear and chloroplast sequences. The nuclear (NIA-i3) and chloroplast (trnC-trnD) sequence data generated in this study were compared with previously published phylogenies of Rhus based on nuclear ribosomal ITS data and chloroplast trnL-F and ndhF sequences. The NIA-i3 data provided more parsimony-informative characters than ITS; the trnC-trnD data provided the most parsimony-informative characters among three chloroplast markers. All data sets support the monophyly of Rhus. Within Rhus, the nuclear data support the monophyly of subgen. Lobadium and the monophyly of subgen. Rhus. The chloroplast data suggest a paraphyletic subgenus Lobadium with R. microphylla and R. rubifolia of subgen. Lobadium placed within subgen. Rhus. Rhus coriaria and R. michauxii of subgen. Rhus also have discordant positions in the cpDNA and the nuclear trees. Incongruence among nuclear and chloroplast datasets, together with the phylogenetic positions, sympatric distributions, and morphological intermediacy of discordant taxa suggest possible reticulate evolution among members of Rhus. Yet each species with discordant positions (R. coriaria, R. microphylla, R. michauxii and R. rubifolia) has a single allele or different alleles of the same species forming a monophyletic group in the nuclear ITS and NIA-i3 data. This phenomenon may be due to more ancient origin of these species involving reticulate evolution.
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S1797
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@ARTICLE{TreeBASE2Ref18228,
author = {Tingshuang Yi and A. J. Miller and Jun Wen},
title = {The phylogenetic relationships of Rhus (Anacardiaceae) based on sequences of nuclear NIA-i3 intron and chloroplast trnC-D suggests reticulate evolution},
year = {2007},
keywords = {},
doi = {},
url = {},
pmid = {},
journal = {Systematic Botany},
volume = {},
number = {},
pages = {},
abstract = {A phylogenetic analysis of Rhus (Anacardiaceae) was conducted using nuclear and chloroplast sequences. The nuclear (NIA-i3) and chloroplast (trnC-trnD) sequence data generated in this study were compared with previously published phylogenies of Rhus based on nuclear ribosomal ITS data and chloroplast trnL-F and ndhF sequences. The NIA-i3 data provided more parsimony-informative characters than ITS; the trnC-trnD data provided the most parsimony-informative characters among three chloroplast markers. All data sets support the monophyly of Rhus. Within Rhus, the nuclear data support the monophyly of subgen. Lobadium and the monophyly of subgen. Rhus. The chloroplast data suggest a paraphyletic subgenus Lobadium with R. microphylla and R. rubifolia of subgen. Lobadium placed within subgen. Rhus. Rhus coriaria and R. michauxii of subgen. Rhus also have discordant positions in the cpDNA and the nuclear trees. Incongruence among nuclear and chloroplast datasets, together with the phylogenetic positions, sympatric distributions, and morphological intermediacy of discordant taxa suggest possible reticulate evolution among members of Rhus. Yet each species with discordant positions (R. coriaria, R. microphylla, R. michauxii and R. rubifolia) has a single allele or different alleles of the same species forming a monophyletic group in the nuclear ITS and NIA-i3 data. This phenomenon may be due to more ancient origin of these species involving reticulate evolution.}
}
- Show RIS reference
TY - JOUR
ID - 18228
AU - Yi,Tingshuang
AU - Miller,A. J.
AU - Wen,Jun
T1 - The phylogenetic relationships of Rhus (Anacardiaceae) based on sequences of nuclear NIA-i3 intron and chloroplast trnC-D suggests reticulate evolution
PY - 2007
KW -
UR -
N2 - A phylogenetic analysis of Rhus (Anacardiaceae) was conducted using nuclear and chloroplast sequences. The nuclear (NIA-i3) and chloroplast (trnC-trnD) sequence data generated in this study were compared with previously published phylogenies of Rhus based on nuclear ribosomal ITS data and chloroplast trnL-F and ndhF sequences. The NIA-i3 data provided more parsimony-informative characters than ITS; the trnC-trnD data provided the most parsimony-informative characters among three chloroplast markers. All data sets support the monophyly of Rhus. Within Rhus, the nuclear data support the monophyly of subgen. Lobadium and the monophyly of subgen. Rhus. The chloroplast data suggest a paraphyletic subgenus Lobadium with R. microphylla and R. rubifolia of subgen. Lobadium placed within subgen. Rhus. Rhus coriaria and R. michauxii of subgen. Rhus also have discordant positions in the cpDNA and the nuclear trees. Incongruence among nuclear and chloroplast datasets, together with the phylogenetic positions, sympatric distributions, and morphological intermediacy of discordant taxa suggest possible reticulate evolution among members of Rhus. Yet each species with discordant positions (R. coriaria, R. microphylla, R. michauxii and R. rubifolia) has a single allele or different alleles of the same species forming a monophyletic group in the nuclear ITS and NIA-i3 data. This phenomenon may be due to more ancient origin of these species involving reticulate evolution.
L3 -
JF - Systematic Botany
VL -
IS -
ER -