@ARTICLE{TreeBASE2Ref18697,
author = {Eric Schuettpelz and Sara B. Hoot},
title = {Inferring the root of Iso?tes: exploring alternatives in the absence of an acceptable outgroup},
year = {2006},
keywords = {},
doi = {10.1600/036364406777585856},
url = {},
pmid = {},
journal = {Systematic Botany},
volume = {31},
number = {2},
pages = {258--270},
abstract = {The ancient divergence between the lycopsid genus Iso?tes and its closest living relative (Selaginella) has resulted in considerable morphological and genetic disparity, yet within Iso?tes there is remarkable morphological and genetic uniformity. This has made it difficult to identify the phylogenetic root of the genus. In this study, we addressed this problem and characterized the early branching patterns within Iso?tes using an expanded set of taxa and three molecular markers. We assessed the saturation in the molecular data sets, tested for differences in evolutionary rate, determined the stability of the ingroup topology, and evaluated the applicability of the molecular clock. We then explored three alternative rooting approaches: outgroup, midpoint, and maximum likelihood under the assumption of a molecular clock. Attempts to infer the root of Iso?tes using the outgroup approach were severely hindered by the effects of saturation, but the results from midpoint rooting and the enforcement of the molecular clock were highly consistent among the data sets. We identify the root of Iso?tes to be located among three major, highly supported clades.}
}
Citation for Study 10206
Citation title:
"Inferring the root of Iso?tes: exploring alternatives in the absence of an acceptable outgroup".
This study was previously identified under the legacy study ID S1409
(Status: Published).
Citation
Schuettpelz E., & Hoot S. 2006. Inferring the root of Iso?tes: exploring alternatives in the absence of an acceptable outgroup. Systematic Botany, 31(2): 258-270.
Authors
Abstract
The ancient divergence between the lycopsid genus Iso?tes and its closest living relative (Selaginella) has resulted in considerable morphological and genetic disparity, yet within Iso?tes there is remarkable morphological and genetic uniformity. This has made it difficult to identify the phylogenetic root of the genus. In this study, we addressed this problem and characterized the early branching patterns within Iso?tes using an expanded set of taxa and three molecular markers. We assessed the saturation in the molecular data sets, tested for differences in evolutionary rate, determined the stability of the ingroup topology, and evaluated the applicability of the molecular clock. We then explored three alternative rooting approaches: outgroup, midpoint, and maximum likelihood under the assumption of a molecular clock. Attempts to infer the root of Iso?tes using the outgroup approach were severely hindered by the effects of saturation, but the results from midpoint rooting and the enforcement of the molecular clock were highly consistent among the data sets. We identify the root of Iso?tes to be located among three major, highly supported clades.
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S10206
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref18697,
author = {Eric Schuettpelz and Sara B. Hoot},
title = {Inferring the root of Iso?tes: exploring alternatives in the absence of an acceptable outgroup},
year = {2006},
keywords = {},
doi = {10.1600/036364406777585856},
url = {},
pmid = {},
journal = {Systematic Botany},
volume = {31},
number = {2},
pages = {258--270},
abstract = {The ancient divergence between the lycopsid genus Iso?tes and its closest living relative (Selaginella) has resulted in considerable morphological and genetic disparity, yet within Iso?tes there is remarkable morphological and genetic uniformity. This has made it difficult to identify the phylogenetic root of the genus. In this study, we addressed this problem and characterized the early branching patterns within Iso?tes using an expanded set of taxa and three molecular markers. We assessed the saturation in the molecular data sets, tested for differences in evolutionary rate, determined the stability of the ingroup topology, and evaluated the applicability of the molecular clock. We then explored three alternative rooting approaches: outgroup, midpoint, and maximum likelihood under the assumption of a molecular clock. Attempts to infer the root of Iso?tes using the outgroup approach were severely hindered by the effects of saturation, but the results from midpoint rooting and the enforcement of the molecular clock were highly consistent among the data sets. We identify the root of Iso?tes to be located among three major, highly supported clades.}
}
- Show RIS reference
TY - JOUR
ID - 18697
AU - Schuettpelz,Eric
AU - Hoot,Sara B.
T1 - Inferring the root of Iso?tes: exploring alternatives in the absence of an acceptable outgroup
PY - 2006
UR - http://dx.doi.org/10.1600/036364406777585856
N2 - The ancient divergence between the lycopsid genus Iso?tes and its closest living relative (Selaginella) has resulted in considerable morphological and genetic disparity, yet within Iso?tes there is remarkable morphological and genetic uniformity. This has made it difficult to identify the phylogenetic root of the genus. In this study, we addressed this problem and characterized the early branching patterns within Iso?tes using an expanded set of taxa and three molecular markers. We assessed the saturation in the molecular data sets, tested for differences in evolutionary rate, determined the stability of the ingroup topology, and evaluated the applicability of the molecular clock. We then explored three alternative rooting approaches: outgroup, midpoint, and maximum likelihood under the assumption of a molecular clock. Attempts to infer the root of Iso?tes using the outgroup approach were severely hindered by the effects of saturation, but the results from midpoint rooting and the enforcement of the molecular clock were highly consistent among the data sets. We identify the root of Iso?tes to be located among three major, highly supported clades.
L3 - 10.1600/036364406777585856
JF - Systematic Botany
VL - 31
IS - 2
SP - 258
EP - 270
ER -