@ARTICLE{TreeBASE2Ref20764,
author = {Jonathan Hwang and Qi Zhao and Zhu-Liang Yang and Zheng Wang and Jeffrey P. Townsend},
title = {Phylogeny and secondary structure of ITS sequences from annotated collections and environmental samples validate Helvella and unearth the ecological diversification of saddle fungi.},
year = {2014},
keywords = {Helvella, ectomycorrhizal, taxonomy, diversity, ecology},
doi = {},
url = {http://},
pmid = {},
journal = {Fungal Diversity},
volume = {},
number = {},
pages = {},
abstract = {Species of the Saddle fungi Helvella (Helvellaceae, Pezizomycotina) are morphologically well defined and have been intensively studied to reveal their taxonomy and derive a classification. While some other Helvella are ectomycorrhizal fungi, ecological roles of Helvella species as saprotrophs or mycorrhiza have been controversial. We applied SAT? to build an inclusive ITS alignment for annotated Helvella species and their related environmental ITS sequences and analyzed phylogenetic informativeness of ITS1, ITS2, and 5.8S regions using PhyDesgin. We demonstrated that phylogenetic informativeness of ITS1 was higher than that of ITS2 for recent divergences, but dropped more abruptly for deeper relationships. Consistent with previous studies, the analysis suggested high homoplasy for key morphologies in Helvella. Thus, morphology-based groupings of the genus are unlikely to reflect the true evolutionary history. Inclusion of environmental samples into the ITS phylogeny provided strong evidence that ectomycorrhizal association has appeared in several clades within Helvella, and diversified to adapt to different hosts and geographic conditions. However, similar conclusions could not be drawn regarding saprotrophic life styles in other Helvella species, and few environmental sequences from root samples was found in three clades that host herbaria collections of diverse Helvella species. No Helvella ITS sequences have been recovered from studies examining diverse soil samples. Illuminating the evolution of saprotrophic life style within Helvella requires expanded metagenomic investigation of plant and soil samples.}
}
Citation for Study 12787
Citation title:
"Phylogeny and secondary structure of ITS sequences from annotated collections and environmental samples validate Helvella and unearth the ecological diversification of saddle fungi.".
Study name:
"Phylogeny and secondary structure of ITS sequences from annotated collections and environmental samples validate Helvella and unearth the ecological diversification of saddle fungi.".
This study is part of submission 12787
(Status: Published).
Citation
Hwang J., Zhao Q., Yang Z., Wang Z., & Townsend J. 2014. Phylogeny and secondary structure of ITS sequences from annotated collections and environmental samples validate Helvella and unearth the ecological diversification of saddle fungi. Fungal Diversity, .
Authors
-
Hwang J.
-
Zhao Q.
-
Yang Z.
-
Wang Z.
-
Townsend J.
Abstract
Species of the Saddle fungi Helvella (Helvellaceae, Pezizomycotina) are morphologically well defined and have been intensively studied to reveal their taxonomy and derive a classification. While some other Helvella are ectomycorrhizal fungi, ecological roles of Helvella species as saprotrophs or mycorrhiza have been controversial. We applied SAT? to build an inclusive ITS alignment for annotated Helvella species and their related environmental ITS sequences and analyzed phylogenetic informativeness of ITS1, ITS2, and 5.8S regions using PhyDesgin. We demonstrated that phylogenetic informativeness of ITS1 was higher than that of ITS2 for recent divergences, but dropped more abruptly for deeper relationships. Consistent with previous studies, the analysis suggested high homoplasy for key morphologies in Helvella. Thus, morphology-based groupings of the genus are unlikely to reflect the true evolutionary history. Inclusion of environmental samples into the ITS phylogeny provided strong evidence that ectomycorrhizal association has appeared in several clades within Helvella, and diversified to adapt to different hosts and geographic conditions. However, similar conclusions could not be drawn regarding saprotrophic life styles in other Helvella species, and few environmental sequences from root samples was found in three clades that host herbaria collections of diverse Helvella species. No Helvella ITS sequences have been recovered from studies examining diverse soil samples. Illuminating the evolution of saprotrophic life style within Helvella requires expanded metagenomic investigation of plant and soil samples.
Keywords
Helvella, ectomycorrhizal, taxonomy, diversity, ecology
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S12787
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref20764,
author = {Jonathan Hwang and Qi Zhao and Zhu-Liang Yang and Zheng Wang and Jeffrey P. Townsend},
title = {Phylogeny and secondary structure of ITS sequences from annotated collections and environmental samples validate Helvella and unearth the ecological diversification of saddle fungi.},
year = {2014},
keywords = {Helvella, ectomycorrhizal, taxonomy, diversity, ecology},
doi = {},
url = {http://},
pmid = {},
journal = {Fungal Diversity},
volume = {},
number = {},
pages = {},
abstract = {Species of the Saddle fungi Helvella (Helvellaceae, Pezizomycotina) are morphologically well defined and have been intensively studied to reveal their taxonomy and derive a classification. While some other Helvella are ectomycorrhizal fungi, ecological roles of Helvella species as saprotrophs or mycorrhiza have been controversial. We applied SAT? to build an inclusive ITS alignment for annotated Helvella species and their related environmental ITS sequences and analyzed phylogenetic informativeness of ITS1, ITS2, and 5.8S regions using PhyDesgin. We demonstrated that phylogenetic informativeness of ITS1 was higher than that of ITS2 for recent divergences, but dropped more abruptly for deeper relationships. Consistent with previous studies, the analysis suggested high homoplasy for key morphologies in Helvella. Thus, morphology-based groupings of the genus are unlikely to reflect the true evolutionary history. Inclusion of environmental samples into the ITS phylogeny provided strong evidence that ectomycorrhizal association has appeared in several clades within Helvella, and diversified to adapt to different hosts and geographic conditions. However, similar conclusions could not be drawn regarding saprotrophic life styles in other Helvella species, and few environmental sequences from root samples was found in three clades that host herbaria collections of diverse Helvella species. No Helvella ITS sequences have been recovered from studies examining diverse soil samples. Illuminating the evolution of saprotrophic life style within Helvella requires expanded metagenomic investigation of plant and soil samples.}
}
- Show RIS reference
TY - JOUR
ID - 20764
AU - Hwang,Jonathan
AU - Zhao,Qi
AU - Yang,Zhu-Liang
AU - Wang,Zheng
AU - Townsend,Jeffrey P.
T1 - Phylogeny and secondary structure of ITS sequences from annotated collections and environmental samples validate Helvella and unearth the ecological diversification of saddle fungi.
PY - 2014
KW - Helvella
KW - ectomycorrhizal
KW - taxonomy
KW - diversity
KW - ecology
UR - http://dx.doi.org/
N2 - Species of the Saddle fungi Helvella (Helvellaceae, Pezizomycotina) are morphologically well defined and have been intensively studied to reveal their taxonomy and derive a classification. While some other Helvella are ectomycorrhizal fungi, ecological roles of Helvella species as saprotrophs or mycorrhiza have been controversial. We applied SAT? to build an inclusive ITS alignment for annotated Helvella species and their related environmental ITS sequences and analyzed phylogenetic informativeness of ITS1, ITS2, and 5.8S regions using PhyDesgin. We demonstrated that phylogenetic informativeness of ITS1 was higher than that of ITS2 for recent divergences, but dropped more abruptly for deeper relationships. Consistent with previous studies, the analysis suggested high homoplasy for key morphologies in Helvella. Thus, morphology-based groupings of the genus are unlikely to reflect the true evolutionary history. Inclusion of environmental samples into the ITS phylogeny provided strong evidence that ectomycorrhizal association has appeared in several clades within Helvella, and diversified to adapt to different hosts and geographic conditions. However, similar conclusions could not be drawn regarding saprotrophic life styles in other Helvella species, and few environmental sequences from root samples was found in three clades that host herbaria collections of diverse Helvella species. No Helvella ITS sequences have been recovered from studies examining diverse soil samples. Illuminating the evolution of saprotrophic life style within Helvella requires expanded metagenomic investigation of plant and soil samples.
L3 -
JF - Fungal Diversity
VL -
IS -
ER -