@ARTICLE{TreeBASE2Ref15200,
author = {Marie L. Davey and Akihiko Tsuneda and Randolph S. Currah},
title = {Evidence that the gemmae of Papulaspora sepedonioides are neotenous perithecia},
year = {2008},
keywords = {},
doi = {},
url = {},
pmid = {},
journal = {Mycologia},
volume = {100},
number = {},
pages = {626--635},
abstract = {Papulaspora sepedonioides produces large multicellular gemmae with several, thick walled central cells enclosed within a sheath of smaller thin-walled cells. Phylogenetic analysis of the large subunit rDNA indicates P. sepedonioides has affinities to the Melanosporales (Hypocreomycetidae). The development of gemmae in P. sepedonioides was characterized by light, and scanning and transmission electron microscopy, and was similar to previous ontogenetic studies of ascomata development in the Melanosporales. However, rather than giving rise to ascogenous tissues, the central cells of the incipient gemmae became darkly pigmented, thick walled, and filled with lipid globules while the contents of the sheath cells autolysed, leaving them empty and deflated at maturity. Both central cells and pre-autolytic sheath cells produced both germ tubes and new gemmae primordia, suggesting microcyclic conidiogenesis occurs in this species. Mature gemmae were non-deciduous or seceded by schizolytic secession and appear to have both perennating and disseminative potential. The evolution of these neotenous perithecial propagules may be driven by life history and ecological factors selecting for functional versatility.}
}
Citation for Study 2109
Citation title:
"Evidence that the gemmae of Papulaspora sepedonioides are neotenous perithecia".
This study was previously identified under the legacy study ID S2112
(Status: Published).
Citation
Davey M., Tsuneda A., & Currah R. 2008. Evidence that the gemmae of Papulaspora sepedonioides are neotenous perithecia. Mycologia, 100: 626-635.
Authors
-
Davey M.
-
Tsuneda A.
-
Currah R.
Abstract
Papulaspora sepedonioides produces large multicellular gemmae with several, thick walled central cells enclosed within a sheath of smaller thin-walled cells. Phylogenetic analysis of the large subunit rDNA indicates P. sepedonioides has affinities to the Melanosporales (Hypocreomycetidae). The development of gemmae in P. sepedonioides was characterized by light, and scanning and transmission electron microscopy, and was similar to previous ontogenetic studies of ascomata development in the Melanosporales. However, rather than giving rise to ascogenous tissues, the central cells of the incipient gemmae became darkly pigmented, thick walled, and filled with lipid globules while the contents of the sheath cells autolysed, leaving them empty and deflated at maturity. Both central cells and pre-autolytic sheath cells produced both germ tubes and new gemmae primordia, suggesting microcyclic conidiogenesis occurs in this species. Mature gemmae were non-deciduous or seceded by schizolytic secession and appear to have both perennating and disseminative potential. The evolution of these neotenous perithecial propagules may be driven by life history and ecological factors selecting for functional versatility.
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S2109
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref15200,
author = {Marie L. Davey and Akihiko Tsuneda and Randolph S. Currah},
title = {Evidence that the gemmae of Papulaspora sepedonioides are neotenous perithecia},
year = {2008},
keywords = {},
doi = {},
url = {},
pmid = {},
journal = {Mycologia},
volume = {100},
number = {},
pages = {626--635},
abstract = {Papulaspora sepedonioides produces large multicellular gemmae with several, thick walled central cells enclosed within a sheath of smaller thin-walled cells. Phylogenetic analysis of the large subunit rDNA indicates P. sepedonioides has affinities to the Melanosporales (Hypocreomycetidae). The development of gemmae in P. sepedonioides was characterized by light, and scanning and transmission electron microscopy, and was similar to previous ontogenetic studies of ascomata development in the Melanosporales. However, rather than giving rise to ascogenous tissues, the central cells of the incipient gemmae became darkly pigmented, thick walled, and filled with lipid globules while the contents of the sheath cells autolysed, leaving them empty and deflated at maturity. Both central cells and pre-autolytic sheath cells produced both germ tubes and new gemmae primordia, suggesting microcyclic conidiogenesis occurs in this species. Mature gemmae were non-deciduous or seceded by schizolytic secession and appear to have both perennating and disseminative potential. The evolution of these neotenous perithecial propagules may be driven by life history and ecological factors selecting for functional versatility.}
}
- Show RIS reference
TY - JOUR
ID - 15200
AU - Davey,Marie L.
AU - Tsuneda,Akihiko
AU - Currah,Randolph S.
T1 - Evidence that the gemmae of Papulaspora sepedonioides are neotenous perithecia
PY - 2008
UR -
N2 - Papulaspora sepedonioides produces large multicellular gemmae with several, thick walled central cells enclosed within a sheath of smaller thin-walled cells. Phylogenetic analysis of the large subunit rDNA indicates P. sepedonioides has affinities to the Melanosporales (Hypocreomycetidae). The development of gemmae in P. sepedonioides was characterized by light, and scanning and transmission electron microscopy, and was similar to previous ontogenetic studies of ascomata development in the Melanosporales. However, rather than giving rise to ascogenous tissues, the central cells of the incipient gemmae became darkly pigmented, thick walled, and filled with lipid globules while the contents of the sheath cells autolysed, leaving them empty and deflated at maturity. Both central cells and pre-autolytic sheath cells produced both germ tubes and new gemmae primordia, suggesting microcyclic conidiogenesis occurs in this species. Mature gemmae were non-deciduous or seceded by schizolytic secession and appear to have both perennating and disseminative potential. The evolution of these neotenous perithecial propagules may be driven by life history and ecological factors selecting for functional versatility.
L3 -
JF - Mycologia
VL - 100
IS -
SP - 626
EP - 635
ER -