@ARTICLE{TreeBASE2Ref21661,
author = {Cobus Meyer Visagie and Jos Houbraken and Robert A Samson and Karol A Seifert and Karin Jacobs},
title = {A new species of Penicillium, P. compactum sp. nov., in section Sclerotiora isolated from Fynbos},
year = {2013},
keywords = {Biodiversity hotspot, Multigene phylogeny, Internal transcribed spacer region, β-tubulin, Calmodulin},
doi = {10.3767/003158513X667410},
url = {http://},
pmid = {},
journal = {Persoonia},
volume = {31},
number = {},
pages = {42--62},
abstract = {Current literature accepts 17 species in Penicillium section Sclerotiora. Several produce colonies in bright
yellow to orange colours and have monoverticillate conidiophores, apart from P. herquei, P. malachiteum and P. nodositatum,
which are biverticillate. The focus of this paper is to refine the concepts of the species currently accepted
in the section and introduce five new species, named after the Dutch Royal family as P. vanoranjei, P. maximae,
P. amaliae, P. alexiae and P. arianeae. Penicillium vanoranjei produces orange (Dutch = oranje) colonies in culture,
and is named after Willem-Alexander Claus George Ferdinand, ?Zijne Koninklijke Hoogheid de Prins van Oranje?
(translated from Dutch as: ?His Royal Highness the Prince of Orange?) and his family, to coincide with his coronation.
We review the current taxonomic positions of P. lilacinoechinulatum and P. nodositatum, both currently considered
to be synonyms of P. bilaiae. Sequence data generated in this study show that both species are phylogenetically
distinct. Penicillium lilacinoechinulatum is closely related to P. amaliae sp. nov., whereas P. nodositatum does not
belong to Penicillium sensu stricto. All species were compared morphologically and phylogenetically, based on
β-tubulin and calmodulin DNA data. A table summarising the morphological characters of all species is included,
together with photomicrographs and recommended DNA markers for identification.}
}
Citation for Study 13796
Citation title:
"A new species of Penicillium, P. compactum sp. nov., in section Sclerotiora isolated from Fynbos".
Study name:
"A new species of Penicillium, P. compactum sp. nov., in section Sclerotiora isolated from Fynbos".
This study is part of submission 13796
(Status: Published).
Citation
Visagie C.M., Houbraken J., Samson R.A., Seifert K.A., & Jacobs K. 2013. A new species of Penicillium, P. compactum sp. nov., in section Sclerotiora isolated from Fynbos. Persoonia, 31: 42-62.
Authors
-
Visagie C.M.
(submitter)
-
Houbraken J.
+31 (0)30 2122600
-
Samson R.A.
-
Seifert K.A.
-
Jacobs K.
Abstract
Current literature accepts 17 species in Penicillium section Sclerotiora. Several produce colonies in bright
yellow to orange colours and have monoverticillate conidiophores, apart from P. herquei, P. malachiteum and P. nodositatum,
which are biverticillate. The focus of this paper is to refine the concepts of the species currently accepted
in the section and introduce five new species, named after the Dutch Royal family as P. vanoranjei, P. maximae,
P. amaliae, P. alexiae and P. arianeae. Penicillium vanoranjei produces orange (Dutch = oranje) colonies in culture,
and is named after Willem-Alexander Claus George Ferdinand, ?Zijne Koninklijke Hoogheid de Prins van Oranje?
(translated from Dutch as: ?His Royal Highness the Prince of Orange?) and his family, to coincide with his coronation.
We review the current taxonomic positions of P. lilacinoechinulatum and P. nodositatum, both currently considered
to be synonyms of P. bilaiae. Sequence data generated in this study show that both species are phylogenetically
distinct. Penicillium lilacinoechinulatum is closely related to P. amaliae sp. nov., whereas P. nodositatum does not
belong to Penicillium sensu stricto. All species were compared morphologically and phylogenetically, based on
β-tubulin and calmodulin DNA data. A table summarising the morphological characters of all species is included,
together with photomicrographs and recommended DNA markers for identification.
Keywords
Biodiversity hotspot, Multigene phylogeny, Internal transcribed spacer region, β-tubulin, Calmodulin
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S13796
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref21661,
author = {Cobus Meyer Visagie and Jos Houbraken and Robert A Samson and Karol A Seifert and Karin Jacobs},
title = {A new species of Penicillium, P. compactum sp. nov., in section Sclerotiora isolated from Fynbos},
year = {2013},
keywords = {Biodiversity hotspot, Multigene phylogeny, Internal transcribed spacer region, β-tubulin, Calmodulin},
doi = {10.3767/003158513X667410},
url = {http://},
pmid = {},
journal = {Persoonia},
volume = {31},
number = {},
pages = {42--62},
abstract = {Current literature accepts 17 species in Penicillium section Sclerotiora. Several produce colonies in bright
yellow to orange colours and have monoverticillate conidiophores, apart from P. herquei, P. malachiteum and P. nodositatum,
which are biverticillate. The focus of this paper is to refine the concepts of the species currently accepted
in the section and introduce five new species, named after the Dutch Royal family as P. vanoranjei, P. maximae,
P. amaliae, P. alexiae and P. arianeae. Penicillium vanoranjei produces orange (Dutch = oranje) colonies in culture,
and is named after Willem-Alexander Claus George Ferdinand, ?Zijne Koninklijke Hoogheid de Prins van Oranje?
(translated from Dutch as: ?His Royal Highness the Prince of Orange?) and his family, to coincide with his coronation.
We review the current taxonomic positions of P. lilacinoechinulatum and P. nodositatum, both currently considered
to be synonyms of P. bilaiae. Sequence data generated in this study show that both species are phylogenetically
distinct. Penicillium lilacinoechinulatum is closely related to P. amaliae sp. nov., whereas P. nodositatum does not
belong to Penicillium sensu stricto. All species were compared morphologically and phylogenetically, based on
β-tubulin and calmodulin DNA data. A table summarising the morphological characters of all species is included,
together with photomicrographs and recommended DNA markers for identification.}
}
- Show RIS reference
TY - JOUR
ID - 21661
AU - Visagie,Cobus Meyer
AU - Houbraken,Jos
AU - Samson,Robert A
AU - Seifert,Karol A
AU - Jacobs,Karin
T1 - A new species of Penicillium, P. compactum sp. nov., in section Sclerotiora isolated from Fynbos
PY - 2013
KW - Biodiversity hotspot
KW - Multigene phylogeny
KW - Internal transcribed spacer region
KW - β-tubulin
KW - Calmodulin
UR - http://dx.doi.org/10.3767/003158513X667410
N2 - Current literature accepts 17 species in Penicillium section Sclerotiora. Several produce colonies in bright
yellow to orange colours and have monoverticillate conidiophores, apart from P. herquei, P. malachiteum and P. nodositatum,
which are biverticillate. The focus of this paper is to refine the concepts of the species currently accepted
in the section and introduce five new species, named after the Dutch Royal family as P. vanoranjei, P. maximae,
P. amaliae, P. alexiae and P. arianeae. Penicillium vanoranjei produces orange (Dutch = oranje) colonies in culture,
and is named after Willem-Alexander Claus George Ferdinand, ?Zijne Koninklijke Hoogheid de Prins van Oranje?
(translated from Dutch as: ?His Royal Highness the Prince of Orange?) and his family, to coincide with his coronation.
We review the current taxonomic positions of P. lilacinoechinulatum and P. nodositatum, both currently considered
to be synonyms of P. bilaiae. Sequence data generated in this study show that both species are phylogenetically
distinct. Penicillium lilacinoechinulatum is closely related to P. amaliae sp. nov., whereas P. nodositatum does not
belong to Penicillium sensu stricto. All species were compared morphologically and phylogenetically, based on
β-tubulin and calmodulin DNA data. A table summarising the morphological characters of all species is included,
together with photomicrographs and recommended DNA markers for identification.
L3 - 10.3767/003158513X667410
JF - Persoonia
VL - 31
IS -
SP - 42
EP - 62
ER -