@ARTICLE{TreeBASE2Ref16858,
author = {John E. Norman and Keith N. Egger},
title = {Molecular phylogenetic analysis of Peziza and related genera.},
year = {1999},
keywords = {},
doi = {},
url = {http://www.jstor.org/stable/3761535},
pmid = {},
journal = {Mycologia},
volume = {91},
number = {5},
pages = {820--829},
abstract = {In a previous study of the genus Plicaria and its relationship to Peziza, the molecular phylogeny that was generated suggested Peziza is paraphyletic. The objective of this study was to explore this problem by examining a larger sample of Peziza species, by increasing the length of DNA sequence analyzed, and by including in the analysis additional genera in the Pezizaceae. DNA sequences were obtained from the 5' internal transcribed spacer region, the divergent domains D1 and D2 of the 28S gene, and most of the 18S gene of the nuclear-encoded ribosomal DNA. Maximum-likelihood analysis of these sequences indicates that Peziza is composed of at least two distinct clades: the first clade contains taxa with mostly smooth to finely-roughened, eguttulate ascospores and Oedocephalum anamorphs, the second clade contains mostly taxa with warted, guttulate ascospores and Chromelosporium anamorphs. Separate generic status for Kimbropezia is not supported by the phylogenetic analysis and Peziza quelepidotia is sufficiently distinct to retain its original status as Lepidotia hispida. This study is the first to suggest a phylogenetic link between the mitotic fungus Glischroderma, and the genera Scabropezia and Pachyphloeus. Other hypogeous species that belong in the Pezizaceae include Cazia flexiascus, Terfezia arenaria and Terfezia terfezioides.}
}
Citation for Study 556
Citation title:
"Molecular phylogenetic analysis of Peziza and related genera.".
This study was previously identified under the legacy study ID S380
(Status: Published).
Citation
Norman J., & Egger K. 1999. Molecular phylogenetic analysis of Peziza and related genera. Mycologia, 91(5): 820-829.
Authors
Abstract
In a previous study of the genus Plicaria and its relationship to Peziza, the molecular phylogeny that was generated suggested Peziza is paraphyletic. The objective of this study was to explore this problem by examining a larger sample of Peziza species, by increasing the length of DNA sequence analyzed, and by including in the analysis additional genera in the Pezizaceae. DNA sequences were obtained from the 5' internal transcribed spacer region, the divergent domains D1 and D2 of the 28S gene, and most of the 18S gene of the nuclear-encoded ribosomal DNA. Maximum-likelihood analysis of these sequences indicates that Peziza is composed of at least two distinct clades: the first clade contains taxa with mostly smooth to finely-roughened, eguttulate ascospores and Oedocephalum anamorphs, the second clade contains mostly taxa with warted, guttulate ascospores and Chromelosporium anamorphs. Separate generic status for Kimbropezia is not supported by the phylogenetic analysis and Peziza quelepidotia is sufficiently distinct to retain its original status as Lepidotia hispida. This study is the first to suggest a phylogenetic link between the mitotic fungus Glischroderma, and the genera Scabropezia and Pachyphloeus. Other hypogeous species that belong in the Pezizaceae include Cazia flexiascus, Terfezia arenaria and Terfezia terfezioides.
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S556
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref16858,
author = {John E. Norman and Keith N. Egger},
title = {Molecular phylogenetic analysis of Peziza and related genera.},
year = {1999},
keywords = {},
doi = {},
url = {http://www.jstor.org/stable/3761535},
pmid = {},
journal = {Mycologia},
volume = {91},
number = {5},
pages = {820--829},
abstract = {In a previous study of the genus Plicaria and its relationship to Peziza, the molecular phylogeny that was generated suggested Peziza is paraphyletic. The objective of this study was to explore this problem by examining a larger sample of Peziza species, by increasing the length of DNA sequence analyzed, and by including in the analysis additional genera in the Pezizaceae. DNA sequences were obtained from the 5' internal transcribed spacer region, the divergent domains D1 and D2 of the 28S gene, and most of the 18S gene of the nuclear-encoded ribosomal DNA. Maximum-likelihood analysis of these sequences indicates that Peziza is composed of at least two distinct clades: the first clade contains taxa with mostly smooth to finely-roughened, eguttulate ascospores and Oedocephalum anamorphs, the second clade contains mostly taxa with warted, guttulate ascospores and Chromelosporium anamorphs. Separate generic status for Kimbropezia is not supported by the phylogenetic analysis and Peziza quelepidotia is sufficiently distinct to retain its original status as Lepidotia hispida. This study is the first to suggest a phylogenetic link between the mitotic fungus Glischroderma, and the genera Scabropezia and Pachyphloeus. Other hypogeous species that belong in the Pezizaceae include Cazia flexiascus, Terfezia arenaria and Terfezia terfezioides.}
}
- Show RIS reference
TY - JOUR
ID - 16858
AU - Norman,John E.
AU - Egger,Keith N.
T1 - Molecular phylogenetic analysis of Peziza and related genera.
PY - 1999
KW -
UR - http://www.jstor.org/stable/3761535
N2 - In a previous study of the genus Plicaria and its relationship to Peziza, the molecular phylogeny that was generated suggested Peziza is paraphyletic. The objective of this study was to explore this problem by examining a larger sample of Peziza species, by increasing the length of DNA sequence analyzed, and by including in the analysis additional genera in the Pezizaceae. DNA sequences were obtained from the 5' internal transcribed spacer region, the divergent domains D1 and D2 of the 28S gene, and most of the 18S gene of the nuclear-encoded ribosomal DNA. Maximum-likelihood analysis of these sequences indicates that Peziza is composed of at least two distinct clades: the first clade contains taxa with mostly smooth to finely-roughened, eguttulate ascospores and Oedocephalum anamorphs, the second clade contains mostly taxa with warted, guttulate ascospores and Chromelosporium anamorphs. Separate generic status for Kimbropezia is not supported by the phylogenetic analysis and Peziza quelepidotia is sufficiently distinct to retain its original status as Lepidotia hispida. This study is the first to suggest a phylogenetic link between the mitotic fungus Glischroderma, and the genera Scabropezia and Pachyphloeus. Other hypogeous species that belong in the Pezizaceae include Cazia flexiascus, Terfezia arenaria and Terfezia terfezioides.
L3 -
JF - Mycologia
VL - 91
IS - 5
SP - 820
EP - 829
ER -