@ARTICLE{TreeBASE2Ref14864,
author = {Anne K. Brysting and Bengt Oxelman and Katharina T. Huber and Vincent Moulton and Christian Brochmann},
title = {Untangling Complex Histories of Genome Mergings in High Polyploids.},
year = {2007},
keywords = {},
doi = {10.1080/10635150701424553},
url = {},
pmid = {},
journal = {Systematic Biology},
volume = {56},
number = {3},
pages = {467--476},
abstract = {Polyploidy, the duplication of entire genomes, plays a major role in plant evolution. In allopolyploids, genome duplication is associated with hybridization between two or more divergent genomes. Successive hybridization and polyploidzation events can build up species complexes of allopolyploids with complicated network-like histories, and the evolutionary history of many plant groups cannot be adequately represented by phylogenetic trees because of such reticulate events. The history of complex genome mergings within a high-polyploid species complex in the genus Cerastium (Caryophyllaceae) is here untangled by the use of a network algorithm and non-coding sequences of a low-copy number gene. The resulting network illustrates how hybridization and polyploidization have acted as key evolutionary processes in creating a plant group where high-level allopolyploids clearly outnumber extant parental genomes.}
}
Citation for Study 1760
Citation title:
"Untangling Complex Histories of Genome Mergings in High Polyploids.".
This study was previously identified under the legacy study ID S1727
(Status: Published).
Citation
Brysting A., Oxelman B., Huber K., Moulton V., & Brochmann C. 2007. Untangling Complex Histories of Genome Mergings in High Polyploids. Systematic Biology, 56(3): 467-476.
Authors
-
Brysting A.
-
Oxelman B.
-
Huber K.
-
Moulton V.
-
Brochmann C.
Abstract
Polyploidy, the duplication of entire genomes, plays a major role in plant evolution. In allopolyploids, genome duplication is associated with hybridization between two or more divergent genomes. Successive hybridization and polyploidzation events can build up species complexes of allopolyploids with complicated network-like histories, and the evolutionary history of many plant groups cannot be adequately represented by phylogenetic trees because of such reticulate events. The history of complex genome mergings within a high-polyploid species complex in the genus Cerastium (Caryophyllaceae) is here untangled by the use of a network algorithm and non-coding sequences of a low-copy number gene. The resulting network illustrates how hybridization and polyploidization have acted as key evolutionary processes in creating a plant group where high-level allopolyploids clearly outnumber extant parental genomes.
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S1760
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref14864,
author = {Anne K. Brysting and Bengt Oxelman and Katharina T. Huber and Vincent Moulton and Christian Brochmann},
title = {Untangling Complex Histories of Genome Mergings in High Polyploids.},
year = {2007},
keywords = {},
doi = {10.1080/10635150701424553},
url = {},
pmid = {},
journal = {Systematic Biology},
volume = {56},
number = {3},
pages = {467--476},
abstract = {Polyploidy, the duplication of entire genomes, plays a major role in plant evolution. In allopolyploids, genome duplication is associated with hybridization between two or more divergent genomes. Successive hybridization and polyploidzation events can build up species complexes of allopolyploids with complicated network-like histories, and the evolutionary history of many plant groups cannot be adequately represented by phylogenetic trees because of such reticulate events. The history of complex genome mergings within a high-polyploid species complex in the genus Cerastium (Caryophyllaceae) is here untangled by the use of a network algorithm and non-coding sequences of a low-copy number gene. The resulting network illustrates how hybridization and polyploidization have acted as key evolutionary processes in creating a plant group where high-level allopolyploids clearly outnumber extant parental genomes.}
}
- Show RIS reference
TY - JOUR
ID - 14864
AU - Brysting,Anne K.
AU - Oxelman,Bengt
AU - Huber,Katharina T.
AU - Moulton,Vincent
AU - Brochmann,Christian
T1 - Untangling Complex Histories of Genome Mergings in High Polyploids.
PY - 2007
KW -
UR - http://dx.doi.org/10.1080/10635150701424553
N2 - Polyploidy, the duplication of entire genomes, plays a major role in plant evolution. In allopolyploids, genome duplication is associated with hybridization between two or more divergent genomes. Successive hybridization and polyploidzation events can build up species complexes of allopolyploids with complicated network-like histories, and the evolutionary history of many plant groups cannot be adequately represented by phylogenetic trees because of such reticulate events. The history of complex genome mergings within a high-polyploid species complex in the genus Cerastium (Caryophyllaceae) is here untangled by the use of a network algorithm and non-coding sequences of a low-copy number gene. The resulting network illustrates how hybridization and polyploidization have acted as key evolutionary processes in creating a plant group where high-level allopolyploids clearly outnumber extant parental genomes.
L3 - 10.1080/10635150701424553
JF - Systematic Biology
VL - 56
IS - 3
SP - 467
EP - 476
ER -