@ARTICLE{TreeBASE2Ref15406,
author = {David Fewer and Thomas Friedl and B. Budel},
title = {Chroococcidiopsis and heterocyst differentiating cyanobacteria are each other's closest living relatives.},
year = {2002},
keywords = {Chroococcidiopsis; heterocyst; sister taxa; Pleurocapsales; multiple fission; Myxosarcina; primitive cyanobacteria; survival cells},
doi = {10.1006/mpev.2001.1075},
url = {},
pmid = {12182405 },
journal = {Molecular Phylogenetics and Evolution},
volume = {23},
number = {1},
pages = {82--90.},
abstract = {Many filamentous cyanobacteria reduce atmospheric nitrogen in specialized differentiated cells called heterocysts. Here we present evidence that shows members of the unicellular non-heterocyst differentiating genus Chroococcidiopsis and filamentous heterocyst differentiating cyanobacteria are each other?s closest living relatives. Distance, maximum parsimony and maximum likelihood analyses of complete small subunit ribosomal RNA gene sequences yielded highly congruent support for the monophyly of Chroococcidiopsis and the heterocyst differentiating cyanobacteria. Our results demonstrate that the order Pleurocapsales which traditionally contains Chroococcidiopsis is a polyphyletic assemblage with the ability to reproduce by multiple fission having arisen independently at least twice during the cyanobacterial radiation. Our data also rejects Myxosarcina as a sister taxon to Chroococcidiopsis indicating that the numerous presumed shared derived characters thought to unite the two genera evolved independently. The sequence divergence within the Chroococcidiopsis lineage is comparable to and probably exceeds that in the entire heterocyst differentiating lineage. Chroococcidiopsis forms unique survival cells under nitrogen limiting conditions, and the sister-group relationship with the heterocystous cyanobacteria shown here suggests that differentiation of these cells and heterocysts may be related processes.}
}
Citation for Study 851
Citation title:
"Chroococcidiopsis and heterocyst differentiating cyanobacteria are each other's closest living relatives.".
This study was previously identified under the legacy study ID S711
(Status: Published).
Citation
Fewer D., Friedl T., & Budel B. 2002. Chroococcidiopsis and heterocyst differentiating cyanobacteria are each other's closest living relatives. Molecular Phylogenetics and Evolution, 23(1): 82-90..
Authors
-
Fewer D.
-
Friedl T.
-
Budel B.
Abstract
Many filamentous cyanobacteria reduce atmospheric nitrogen in specialized differentiated cells called heterocysts. Here we present evidence that shows members of the unicellular non-heterocyst differentiating genus Chroococcidiopsis and filamentous heterocyst differentiating cyanobacteria are each other?s closest living relatives. Distance, maximum parsimony and maximum likelihood analyses of complete small subunit ribosomal RNA gene sequences yielded highly congruent support for the monophyly of Chroococcidiopsis and the heterocyst differentiating cyanobacteria. Our results demonstrate that the order Pleurocapsales which traditionally contains Chroococcidiopsis is a polyphyletic assemblage with the ability to reproduce by multiple fission having arisen independently at least twice during the cyanobacterial radiation. Our data also rejects Myxosarcina as a sister taxon to Chroococcidiopsis indicating that the numerous presumed shared derived characters thought to unite the two genera evolved independently. The sequence divergence within the Chroococcidiopsis lineage is comparable to and probably exceeds that in the entire heterocyst differentiating lineage. Chroococcidiopsis forms unique survival cells under nitrogen limiting conditions, and the sister-group relationship with the heterocystous cyanobacteria shown here suggests that differentiation of these cells and heterocysts may be related processes.
Keywords
Chroococcidiopsis; heterocyst; sister taxa; Pleurocapsales; multiple fission; Myxosarcina; primitive cyanobacteria; survival cells
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S851
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref15406,
author = {David Fewer and Thomas Friedl and B. Budel},
title = {Chroococcidiopsis and heterocyst differentiating cyanobacteria are each other's closest living relatives.},
year = {2002},
keywords = {Chroococcidiopsis; heterocyst; sister taxa; Pleurocapsales; multiple fission; Myxosarcina; primitive cyanobacteria; survival cells},
doi = {10.1006/mpev.2001.1075},
url = {},
pmid = {12182405 },
journal = {Molecular Phylogenetics and Evolution},
volume = {23},
number = {1},
pages = {82--90.},
abstract = {Many filamentous cyanobacteria reduce atmospheric nitrogen in specialized differentiated cells called heterocysts. Here we present evidence that shows members of the unicellular non-heterocyst differentiating genus Chroococcidiopsis and filamentous heterocyst differentiating cyanobacteria are each other?s closest living relatives. Distance, maximum parsimony and maximum likelihood analyses of complete small subunit ribosomal RNA gene sequences yielded highly congruent support for the monophyly of Chroococcidiopsis and the heterocyst differentiating cyanobacteria. Our results demonstrate that the order Pleurocapsales which traditionally contains Chroococcidiopsis is a polyphyletic assemblage with the ability to reproduce by multiple fission having arisen independently at least twice during the cyanobacterial radiation. Our data also rejects Myxosarcina as a sister taxon to Chroococcidiopsis indicating that the numerous presumed shared derived characters thought to unite the two genera evolved independently. The sequence divergence within the Chroococcidiopsis lineage is comparable to and probably exceeds that in the entire heterocyst differentiating lineage. Chroococcidiopsis forms unique survival cells under nitrogen limiting conditions, and the sister-group relationship with the heterocystous cyanobacteria shown here suggests that differentiation of these cells and heterocysts may be related processes.}
}
- Show RIS reference
TY - JOUR
ID - 15406
AU - Fewer,David
AU - Friedl,Thomas
AU - Budel,B.
T1 - Chroococcidiopsis and heterocyst differentiating cyanobacteria are each other's closest living relatives.
PY - 2002
KW - Chroococcidiopsis; heterocyst; sister taxa; Pleurocapsales; multiple fission; Myxosarcina; primitive cyanobacteria; survival cells
UR -
N2 - Many filamentous cyanobacteria reduce atmospheric nitrogen in specialized differentiated cells called heterocysts. Here we present evidence that shows members of the unicellular non-heterocyst differentiating genus Chroococcidiopsis and filamentous heterocyst differentiating cyanobacteria are each other?s closest living relatives. Distance, maximum parsimony and maximum likelihood analyses of complete small subunit ribosomal RNA gene sequences yielded highly congruent support for the monophyly of Chroococcidiopsis and the heterocyst differentiating cyanobacteria. Our results demonstrate that the order Pleurocapsales which traditionally contains Chroococcidiopsis is a polyphyletic assemblage with the ability to reproduce by multiple fission having arisen independently at least twice during the cyanobacterial radiation. Our data also rejects Myxosarcina as a sister taxon to Chroococcidiopsis indicating that the numerous presumed shared derived characters thought to unite the two genera evolved independently. The sequence divergence within the Chroococcidiopsis lineage is comparable to and probably exceeds that in the entire heterocyst differentiating lineage. Chroococcidiopsis forms unique survival cells under nitrogen limiting conditions, and the sister-group relationship with the heterocystous cyanobacteria shown here suggests that differentiation of these cells and heterocysts may be related processes.
L3 - 10.1006/mpev.2001.1075
JF - Molecular Phylogenetics and Evolution
VL - 23
IS - 1
ER -