@ARTICLE{TreeBASE2Ref17710,
author = {Guangyu Sun and Shinchi Oide and Eiji Tanaka and Kiminori Shimizu and Chihiro Tanaka and Mitsuya Tsuda},
title = {Species separation in Curvularia "geniculata" group inferred from Brn1 gene sequences},
year = {2003},
keywords = {},
doi = {},
url = {},
pmid = {},
journal = {Mycoscience},
volume = {44},
number = {},
pages = {239--244},
abstract = {Brn1, a reductase gene involved in the melanin biosynthetic pathway, was adopted for species delimitation among members in the "geniculata" group of Curvularia species and proved to be useful for this purpose. Phylo- genetic trees of these fungal members were constructed from nucleotide sequences of this region. The so-called geniculata group of Curvularia was separated into several clusters. The conidial morphology of the members in each cluster is closely similar but clearly different among discrete clusters. The phylogenetic groups almost concurred with the morphological grouping. Thus, the synonymous treat- ment of Curvularia affinis, C. fallax, and C. senegalensis to C. geniculata in a previous study was supported. The iso- lates with warping hilum conidia were clearly different from C. geniculata and separated into two clusters. C. geniculata ATCC 6671 made an independent cluster situated near these clusters. The protuberant hilum species were located separately in the phylogenetic trees. For sound taxonomic treatment of these isolates, we should accumulate more information and retain our species determination for them.}
}
Citation for Study 1603
Citation title:
"Species separation in Curvularia "geniculata" group inferred from Brn1 gene sequences".
This study was previously identified under the legacy study ID S1550
(Status: Published).
Citation
Sun G., Oide S., Tanaka E., Shimizu K., Tanaka C., & Tsuda M. 2003. Species separation in Curvularia "geniculata" group inferred from Brn1 gene sequences. Mycoscience, 44: 239-244.
Authors
-
Sun G.
-
Oide S.
-
Tanaka E.
-
Shimizu K.
-
Tanaka C.
-
Tsuda M.
Abstract
Brn1, a reductase gene involved in the melanin biosynthetic pathway, was adopted for species delimitation among members in the "geniculata" group of Curvularia species and proved to be useful for this purpose. Phylo- genetic trees of these fungal members were constructed from nucleotide sequences of this region. The so-called geniculata group of Curvularia was separated into several clusters. The conidial morphology of the members in each cluster is closely similar but clearly different among discrete clusters. The phylogenetic groups almost concurred with the morphological grouping. Thus, the synonymous treat- ment of Curvularia affinis, C. fallax, and C. senegalensis to C. geniculata in a previous study was supported. The iso- lates with warping hilum conidia were clearly different from C. geniculata and separated into two clusters. C. geniculata ATCC 6671 made an independent cluster situated near these clusters. The protuberant hilum species were located separately in the phylogenetic trees. For sound taxonomic treatment of these isolates, we should accumulate more information and retain our species determination for them.
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S1603
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref17710,
author = {Guangyu Sun and Shinchi Oide and Eiji Tanaka and Kiminori Shimizu and Chihiro Tanaka and Mitsuya Tsuda},
title = {Species separation in Curvularia "geniculata" group inferred from Brn1 gene sequences},
year = {2003},
keywords = {},
doi = {},
url = {},
pmid = {},
journal = {Mycoscience},
volume = {44},
number = {},
pages = {239--244},
abstract = {Brn1, a reductase gene involved in the melanin biosynthetic pathway, was adopted for species delimitation among members in the "geniculata" group of Curvularia species and proved to be useful for this purpose. Phylo- genetic trees of these fungal members were constructed from nucleotide sequences of this region. The so-called geniculata group of Curvularia was separated into several clusters. The conidial morphology of the members in each cluster is closely similar but clearly different among discrete clusters. The phylogenetic groups almost concurred with the morphological grouping. Thus, the synonymous treat- ment of Curvularia affinis, C. fallax, and C. senegalensis to C. geniculata in a previous study was supported. The iso- lates with warping hilum conidia were clearly different from C. geniculata and separated into two clusters. C. geniculata ATCC 6671 made an independent cluster situated near these clusters. The protuberant hilum species were located separately in the phylogenetic trees. For sound taxonomic treatment of these isolates, we should accumulate more information and retain our species determination for them.}
}
- Show RIS reference
TY - JOUR
ID - 17710
AU - Sun,Guangyu
AU - Oide,Shinchi
AU - Tanaka,Eiji
AU - Shimizu,Kiminori
AU - Tanaka,Chihiro
AU - Tsuda,Mitsuya
T1 - Species separation in Curvularia "geniculata" group inferred from Brn1 gene sequences
PY - 2003
UR -
N2 - Brn1, a reductase gene involved in the melanin biosynthetic pathway, was adopted for species delimitation among members in the "geniculata" group of Curvularia species and proved to be useful for this purpose. Phylo- genetic trees of these fungal members were constructed from nucleotide sequences of this region. The so-called geniculata group of Curvularia was separated into several clusters. The conidial morphology of the members in each cluster is closely similar but clearly different among discrete clusters. The phylogenetic groups almost concurred with the morphological grouping. Thus, the synonymous treat- ment of Curvularia affinis, C. fallax, and C. senegalensis to C. geniculata in a previous study was supported. The iso- lates with warping hilum conidia were clearly different from C. geniculata and separated into two clusters. C. geniculata ATCC 6671 made an independent cluster situated near these clusters. The protuberant hilum species were located separately in the phylogenetic trees. For sound taxonomic treatment of these isolates, we should accumulate more information and retain our species determination for them.
L3 -
JF - Mycoscience
VL - 44
IS -
SP - 239
EP - 244
ER -