@ARTICLE{TreeBASE2Ref18975,
author = {Sahadevan Seena and Cl?udia Pascoal and Ludmila Marvanov? and Fernanda C?ssio},
title = {DNA barcoding of fungi: a case study using ITS sequences for identifying aquatic hyphomycete species },
year = {2010},
keywords = {ITS sequences, Barcoding, Aquatic hyphomycetes},
doi = {},
url = {http://},
pmid = {},
journal = {Fungal Diversity},
volume = {},
number = {},
pages = {},
abstract = {Aquatic hyphomycetes are a polyphyletic group of fungi that play a crucial role in organic matter turnover in streams. They have been traditionally identified based on the morphology of conidia collected in stream water or obtained from leaves colonized in nature through aeration methods in laboratory. Therefore, species identification may be limited by our ability to induce conidium production and to establish pure cultures. Conidial shapes are believed to be the result of convergent evolution (Ingold 1975), so similar conidia may be produced by different conidiogenesis processes and neglecting this may lead to erroneous identification. Currently, a great effort in fungal taxonomy is being made at introducing a set of criteria based on comparisons of selected nucleotide sequences instead of or in addition to phenotypic characters. We examined the suitability of whole ITS region or its subregions to identify aquatic hyphomycetes, by sequencing and comparing these regions in 94 fungal isolates belonging to 19 species collected in Portuguese streams with different environmental conditions during 8 years. The ITS1, ITS2 and ITS1-5.8S-ITS2 sequences of the Portuguese isolates of aquatic hyphomycetes and those from the GenBank exhibited taxonomic cohesiveness, all the isolates grouped with their respective species but all the Tricladium species did not group within the Tricladium genus. Cohesiveness was not observed between isolates with respect to location, condition of stream or date of collection. Evolutionary divergences (ITS1-5.8S-ITS2 sequences; Kimura 2-parameter distance) between con-specific isolates were shallow and a deep divergence between species was generally observed. The phylogenetic trees based on ITS1 or ITS2 sequences had lower statistical support for many internal nodes, so we propose mainly the use of entire ITS1-5.8S-ITS2 as barcodes for identifying species of aquatic hyphomycetes. }
}
Citation for Study 10536
Citation title:
"DNA barcoding of fungi: a case study using ITS sequences for identifying aquatic hyphomycete species ".
Study name:
"DNA barcoding of fungi: a case study using ITS sequences for identifying aquatic hyphomycete species ".
This study is part of submission 10526
(Status: Published).
Citation
Seena S., Pascoal C., Marvanov? L., & C?ssio F. 2010. DNA barcoding of fungi: a case study using ITS sequences for identifying aquatic hyphomycete species. Fungal Diversity, .
Authors
-
Seena S.
-
Pascoal C.
-
Marvanov? L.
-
C?ssio F.
Abstract
Aquatic hyphomycetes are a polyphyletic group of fungi that play a crucial role in organic matter turnover in streams. They have been traditionally identified based on the morphology of conidia collected in stream water or obtained from leaves colonized in nature through aeration methods in laboratory. Therefore, species identification may be limited by our ability to induce conidium production and to establish pure cultures. Conidial shapes are believed to be the result of convergent evolution (Ingold 1975), so similar conidia may be produced by different conidiogenesis processes and neglecting this may lead to erroneous identification. Currently, a great effort in fungal taxonomy is being made at introducing a set of criteria based on comparisons of selected nucleotide sequences instead of or in addition to phenotypic characters. We examined the suitability of whole ITS region or its subregions to identify aquatic hyphomycetes, by sequencing and comparing these regions in 94 fungal isolates belonging to 19 species collected in Portuguese streams with different environmental conditions during 8 years. The ITS1, ITS2 and ITS1-5.8S-ITS2 sequences of the Portuguese isolates of aquatic hyphomycetes and those from the GenBank exhibited taxonomic cohesiveness, all the isolates grouped with their respective species but all the Tricladium species did not group within the Tricladium genus. Cohesiveness was not observed between isolates with respect to location, condition of stream or date of collection. Evolutionary divergences (ITS1-5.8S-ITS2 sequences; Kimura 2-parameter distance) between con-specific isolates were shallow and a deep divergence between species was generally observed. The phylogenetic trees based on ITS1 or ITS2 sequences had lower statistical support for many internal nodes, so we propose mainly the use of entire ITS1-5.8S-ITS2 as barcodes for identifying species of aquatic hyphomycetes.
Keywords
ITS sequences, Barcoding, Aquatic hyphomycetes
External links
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- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S10536
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@ARTICLE{TreeBASE2Ref18975,
author = {Sahadevan Seena and Cl?udia Pascoal and Ludmila Marvanov? and Fernanda C?ssio},
title = {DNA barcoding of fungi: a case study using ITS sequences for identifying aquatic hyphomycete species },
year = {2010},
keywords = {ITS sequences, Barcoding, Aquatic hyphomycetes},
doi = {},
url = {http://},
pmid = {},
journal = {Fungal Diversity},
volume = {},
number = {},
pages = {},
abstract = {Aquatic hyphomycetes are a polyphyletic group of fungi that play a crucial role in organic matter turnover in streams. They have been traditionally identified based on the morphology of conidia collected in stream water or obtained from leaves colonized in nature through aeration methods in laboratory. Therefore, species identification may be limited by our ability to induce conidium production and to establish pure cultures. Conidial shapes are believed to be the result of convergent evolution (Ingold 1975), so similar conidia may be produced by different conidiogenesis processes and neglecting this may lead to erroneous identification. Currently, a great effort in fungal taxonomy is being made at introducing a set of criteria based on comparisons of selected nucleotide sequences instead of or in addition to phenotypic characters. We examined the suitability of whole ITS region or its subregions to identify aquatic hyphomycetes, by sequencing and comparing these regions in 94 fungal isolates belonging to 19 species collected in Portuguese streams with different environmental conditions during 8 years. The ITS1, ITS2 and ITS1-5.8S-ITS2 sequences of the Portuguese isolates of aquatic hyphomycetes and those from the GenBank exhibited taxonomic cohesiveness, all the isolates grouped with their respective species but all the Tricladium species did not group within the Tricladium genus. Cohesiveness was not observed between isolates with respect to location, condition of stream or date of collection. Evolutionary divergences (ITS1-5.8S-ITS2 sequences; Kimura 2-parameter distance) between con-specific isolates were shallow and a deep divergence between species was generally observed. The phylogenetic trees based on ITS1 or ITS2 sequences had lower statistical support for many internal nodes, so we propose mainly the use of entire ITS1-5.8S-ITS2 as barcodes for identifying species of aquatic hyphomycetes. }
}
- Show RIS reference
TY - JOUR
ID - 18975
AU - Seena,Sahadevan
AU - Pascoal,Cl?udia
AU - Marvanov?,Ludmila
AU - C?ssio,Fernanda
T1 - DNA barcoding of fungi: a case study using ITS sequences for identifying aquatic hyphomycete species
PY - 2010
KW - ITS sequences
KW - Barcoding
KW - Aquatic hyphomycetes
UR - http://dx.doi.org/
N2 - Aquatic hyphomycetes are a polyphyletic group of fungi that play a crucial role in organic matter turnover in streams. They have been traditionally identified based on the morphology of conidia collected in stream water or obtained from leaves colonized in nature through aeration methods in laboratory. Therefore, species identification may be limited by our ability to induce conidium production and to establish pure cultures. Conidial shapes are believed to be the result of convergent evolution (Ingold 1975), so similar conidia may be produced by different conidiogenesis processes and neglecting this may lead to erroneous identification. Currently, a great effort in fungal taxonomy is being made at introducing a set of criteria based on comparisons of selected nucleotide sequences instead of or in addition to phenotypic characters. We examined the suitability of whole ITS region or its subregions to identify aquatic hyphomycetes, by sequencing and comparing these regions in 94 fungal isolates belonging to 19 species collected in Portuguese streams with different environmental conditions during 8 years. The ITS1, ITS2 and ITS1-5.8S-ITS2 sequences of the Portuguese isolates of aquatic hyphomycetes and those from the GenBank exhibited taxonomic cohesiveness, all the isolates grouped with their respective species but all the Tricladium species did not group within the Tricladium genus. Cohesiveness was not observed between isolates with respect to location, condition of stream or date of collection. Evolutionary divergences (ITS1-5.8S-ITS2 sequences; Kimura 2-parameter distance) between con-specific isolates were shallow and a deep divergence between species was generally observed. The phylogenetic trees based on ITS1 or ITS2 sequences had lower statistical support for many internal nodes, so we propose mainly the use of entire ITS1-5.8S-ITS2 as barcodes for identifying species of aquatic hyphomycetes.
L3 -
JF - Fungal Diversity
VL -
IS -
ER -