@ARTICLE{TreeBASE2Ref15536,
author = {David S. Gernandt and Jamie L. Platt and Jeffrey K. Stone and Joseph W. Spatafora and Arne Holst-Jensen and Richard C. Hamelin and Linda M. Kohn},
title = {Phylogenetics of Helotiales and Rhytismatales based on partial small subunit nuclear ribosomal DNA sequences.},
year = {2001},
keywords = {apothecium; inoperculate discomycete; small subunit nrDNA},
doi = {},
url = {http://www.jstor.org/stable/3761757},
pmid = {},
journal = {Mycologia},
volume = {93},
number = {5},
pages = {915--933},
abstract = {The evolutionary sequence leading to the differentiation of ascomatal and ascal types in the Euascomycetes remains poorly understood. To investigate the placement of the inoperculate discomycetes in the phylogeny of Euascomycetes, partial small subunit ribosomal DNA sequences for 36 species placed in Helotiales and Rhytismatales were combined with those of 54 additional species representing the major ascomycete lineages, and two basidiomycetes as outgroups. The apothecial orders Helotiales, Rhytismatales, Pezizales, Caliciales, Lecanorales, and Peltigerales were represented by multiple genera. Maximum parsimony recovered over 100 000 equally most parsimonious trees, with the strict consensus tree collapsing many inoperculate discomycetes into a large Euascomycete polytomy. Weighted parsimony resolved a paraphyletic clade composed of Rhytismatales and Helotiales. Families grouping consistently in the Helotiales/Rhytismatales clade included Bulgariaceae, Helotiaceae, Hemiphacidiaceae, Leotiaceae, Loramycetaceae, Phacidiaceae, Rhytismataceae, Rutstroemiaceae, Sclerotiniaceae, and Thelebolaceae. Orbiliaceae did not group with Helotiales. The small subunit data matrix was more useful for familial relationships in Helotiales and Rhytismatales. Of families represented by multiple taxa, Sclerotiniaceae and Hemiphacidiaceae were monophyletic, Rhytismataceae was paraphyletic, and Helotiaceae and Phacidiaceae were polyphyletic. The placement of several inoperculate discomycete genera with historically problematic ordinal or familial placement based on morphological and developmental features remained equivocal in the small subunit phylogeny. These genera include Cyclaneusma, Darkera, Gremmeniella, Naemacyclus, Phacidium, and Piceomphale. Although further studies are needed, we use the small subunit phylogeny as a framework for discussing the evolution of the ascoma and ascus, the delimitation between Helotiales and Rhytismatales, and certain family concepts within the inoperculate discomycetes.}
}
Citation for Study 748
Citation title:
"Phylogenetics of Helotiales and Rhytismatales based on partial small subunit nuclear ribosomal DNA sequences.".
This study was previously identified under the legacy study ID S599
(Status: Published).
Citation
Gernandt D., Platt J., Stone J., Spatafora J., Holst-jensen A., Hamelin R., & Kohn L. 2001. Phylogenetics of Helotiales and Rhytismatales based on partial small subunit nuclear ribosomal DNA sequences. Mycologia, 93(5): 915-933.
Authors
-
Gernandt D.
-
Platt J.
-
Stone J.
-
Spatafora J.
-
Holst-jensen A.
-
Hamelin R.
-
Kohn L.
Abstract
The evolutionary sequence leading to the differentiation of ascomatal and ascal types in the Euascomycetes remains poorly understood. To investigate the placement of the inoperculate discomycetes in the phylogeny of Euascomycetes, partial small subunit ribosomal DNA sequences for 36 species placed in Helotiales and Rhytismatales were combined with those of 54 additional species representing the major ascomycete lineages, and two basidiomycetes as outgroups. The apothecial orders Helotiales, Rhytismatales, Pezizales, Caliciales, Lecanorales, and Peltigerales were represented by multiple genera. Maximum parsimony recovered over 100 000 equally most parsimonious trees, with the strict consensus tree collapsing many inoperculate discomycetes into a large Euascomycete polytomy. Weighted parsimony resolved a paraphyletic clade composed of Rhytismatales and Helotiales. Families grouping consistently in the Helotiales/Rhytismatales clade included Bulgariaceae, Helotiaceae, Hemiphacidiaceae, Leotiaceae, Loramycetaceae, Phacidiaceae, Rhytismataceae, Rutstroemiaceae, Sclerotiniaceae, and Thelebolaceae. Orbiliaceae did not group with Helotiales. The small subunit data matrix was more useful for familial relationships in Helotiales and Rhytismatales. Of families represented by multiple taxa, Sclerotiniaceae and Hemiphacidiaceae were monophyletic, Rhytismataceae was paraphyletic, and Helotiaceae and Phacidiaceae were polyphyletic. The placement of several inoperculate discomycete genera with historically problematic ordinal or familial placement based on morphological and developmental features remained equivocal in the small subunit phylogeny. These genera include Cyclaneusma, Darkera, Gremmeniella, Naemacyclus, Phacidium, and Piceomphale. Although further studies are needed, we use the small subunit phylogeny as a framework for discussing the evolution of the ascoma and ascus, the delimitation between Helotiales and Rhytismatales, and certain family concepts within the inoperculate discomycetes.
Keywords
apothecium; inoperculate discomycete; small subunit nrDNA
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S748
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref15536,
author = {David S. Gernandt and Jamie L. Platt and Jeffrey K. Stone and Joseph W. Spatafora and Arne Holst-Jensen and Richard C. Hamelin and Linda M. Kohn},
title = {Phylogenetics of Helotiales and Rhytismatales based on partial small subunit nuclear ribosomal DNA sequences.},
year = {2001},
keywords = {apothecium; inoperculate discomycete; small subunit nrDNA},
doi = {},
url = {http://www.jstor.org/stable/3761757},
pmid = {},
journal = {Mycologia},
volume = {93},
number = {5},
pages = {915--933},
abstract = {The evolutionary sequence leading to the differentiation of ascomatal and ascal types in the Euascomycetes remains poorly understood. To investigate the placement of the inoperculate discomycetes in the phylogeny of Euascomycetes, partial small subunit ribosomal DNA sequences for 36 species placed in Helotiales and Rhytismatales were combined with those of 54 additional species representing the major ascomycete lineages, and two basidiomycetes as outgroups. The apothecial orders Helotiales, Rhytismatales, Pezizales, Caliciales, Lecanorales, and Peltigerales were represented by multiple genera. Maximum parsimony recovered over 100 000 equally most parsimonious trees, with the strict consensus tree collapsing many inoperculate discomycetes into a large Euascomycete polytomy. Weighted parsimony resolved a paraphyletic clade composed of Rhytismatales and Helotiales. Families grouping consistently in the Helotiales/Rhytismatales clade included Bulgariaceae, Helotiaceae, Hemiphacidiaceae, Leotiaceae, Loramycetaceae, Phacidiaceae, Rhytismataceae, Rutstroemiaceae, Sclerotiniaceae, and Thelebolaceae. Orbiliaceae did not group with Helotiales. The small subunit data matrix was more useful for familial relationships in Helotiales and Rhytismatales. Of families represented by multiple taxa, Sclerotiniaceae and Hemiphacidiaceae were monophyletic, Rhytismataceae was paraphyletic, and Helotiaceae and Phacidiaceae were polyphyletic. The placement of several inoperculate discomycete genera with historically problematic ordinal or familial placement based on morphological and developmental features remained equivocal in the small subunit phylogeny. These genera include Cyclaneusma, Darkera, Gremmeniella, Naemacyclus, Phacidium, and Piceomphale. Although further studies are needed, we use the small subunit phylogeny as a framework for discussing the evolution of the ascoma and ascus, the delimitation between Helotiales and Rhytismatales, and certain family concepts within the inoperculate discomycetes.}
}
- Show RIS reference
TY - JOUR
ID - 15536
AU - Gernandt,David S.
AU - Platt,Jamie L.
AU - Stone,Jeffrey K.
AU - Spatafora,Joseph W.
AU - Holst-Jensen,Arne
AU - Hamelin,Richard C.
AU - Kohn,Linda M.
T1 - Phylogenetics of Helotiales and Rhytismatales based on partial small subunit nuclear ribosomal DNA sequences.
PY - 2001
KW - apothecium; inoperculate discomycete; small subunit nrDNA
UR - http://www.jstor.org/stable/3761757
N2 - The evolutionary sequence leading to the differentiation of ascomatal and ascal types in the Euascomycetes remains poorly understood. To investigate the placement of the inoperculate discomycetes in the phylogeny of Euascomycetes, partial small subunit ribosomal DNA sequences for 36 species placed in Helotiales and Rhytismatales were combined with those of 54 additional species representing the major ascomycete lineages, and two basidiomycetes as outgroups. The apothecial orders Helotiales, Rhytismatales, Pezizales, Caliciales, Lecanorales, and Peltigerales were represented by multiple genera. Maximum parsimony recovered over 100 000 equally most parsimonious trees, with the strict consensus tree collapsing many inoperculate discomycetes into a large Euascomycete polytomy. Weighted parsimony resolved a paraphyletic clade composed of Rhytismatales and Helotiales. Families grouping consistently in the Helotiales/Rhytismatales clade included Bulgariaceae, Helotiaceae, Hemiphacidiaceae, Leotiaceae, Loramycetaceae, Phacidiaceae, Rhytismataceae, Rutstroemiaceae, Sclerotiniaceae, and Thelebolaceae. Orbiliaceae did not group with Helotiales. The small subunit data matrix was more useful for familial relationships in Helotiales and Rhytismatales. Of families represented by multiple taxa, Sclerotiniaceae and Hemiphacidiaceae were monophyletic, Rhytismataceae was paraphyletic, and Helotiaceae and Phacidiaceae were polyphyletic. The placement of several inoperculate discomycete genera with historically problematic ordinal or familial placement based on morphological and developmental features remained equivocal in the small subunit phylogeny. These genera include Cyclaneusma, Darkera, Gremmeniella, Naemacyclus, Phacidium, and Piceomphale. Although further studies are needed, we use the small subunit phylogeny as a framework for discussing the evolution of the ascoma and ascus, the delimitation between Helotiales and Rhytismatales, and certain family concepts within the inoperculate discomycetes.
L3 -
JF - Mycologia
VL - 93
IS - 5
SP - 915
EP - 933
ER -