@ARTICLE{TreeBASE2Ref15310,
author = {Jeff J. Doyle and Jane L. Doyle and Carole Harbison},
title = {Chloroplast-expressed glutamine synthetase in Glycine and related Leguminosae: phylogeny, gene duplication, and ancient polyploidy.},
year = {2003},
keywords = {},
doi = {10.1043/02-31.1},
url = {},
pmid = {},
journal = {Systematic Botany},
volume = {28},
number = {3},
pages = {567--577},
abstract = {The nuclear gene encoding the chloroplast-expressed isozyme of glutamine synthetase (ncpGS) is single copy in diploid angiosperms but is duplicated in species of Glycine, a paleopolyploid genus. The two Glycine paralogues are sister to one another in phylogenetic analyses, a pattern that suggests that this ncpGS duplication occurred subsequent to the divergence of Glycine from extant Glycininae. This pattern does not support an allopolyploid hypothesis in which genomes from close relatives of extant genera combined to form the polyploid, 2n = 40 genome of Glycine, nor with an ancient gene duplication shared with other Glycininae. Rather, it is consistent with autopolyploidy or with a simple gene duplication. Teramnus ncpGS was the closest relative of the two Glycine paralogues, supporting a sister-group relationship between these two genera. In contrast, ncpGS results suggested that Sinodolichos, a genus that has been suggested as a possible congener of Glycine, is more closely related to Pseueminia and Pseudovigna. Both paralogues of ncpGS identify known genome groups among species of Glycine subg. Glycine, but neither strongly resolves relationships among these groups. Incongruence between the two paralogues in the placement of G. falcata mirrors incongruence between the chloroplast genome and other nuclear genes for this species.}
}
Citation for Study 1005
Citation title:
"Chloroplast-expressed glutamine synthetase in Glycine and related Leguminosae: phylogeny, gene duplication, and ancient polyploidy.".
This study was previously identified under the legacy study ID S895
(Status: Published).
Citation
Doyle J., Doyle J., & Harbison C. 2003. Chloroplast-expressed glutamine synthetase in Glycine and related Leguminosae: phylogeny, gene duplication, and ancient polyploidy. Systematic Botany, 28(3): 567-577.
Authors
-
Doyle J.
-
Doyle J.
-
Harbison C.
Abstract
The nuclear gene encoding the chloroplast-expressed isozyme of glutamine synthetase (ncpGS) is single copy in diploid angiosperms but is duplicated in species of Glycine, a paleopolyploid genus. The two Glycine paralogues are sister to one another in phylogenetic analyses, a pattern that suggests that this ncpGS duplication occurred subsequent to the divergence of Glycine from extant Glycininae. This pattern does not support an allopolyploid hypothesis in which genomes from close relatives of extant genera combined to form the polyploid, 2n = 40 genome of Glycine, nor with an ancient gene duplication shared with other Glycininae. Rather, it is consistent with autopolyploidy or with a simple gene duplication. Teramnus ncpGS was the closest relative of the two Glycine paralogues, supporting a sister-group relationship between these two genera. In contrast, ncpGS results suggested that Sinodolichos, a genus that has been suggested as a possible congener of Glycine, is more closely related to Pseueminia and Pseudovigna. Both paralogues of ncpGS identify known genome groups among species of Glycine subg. Glycine, but neither strongly resolves relationships among these groups. Incongruence between the two paralogues in the placement of G. falcata mirrors incongruence between the chloroplast genome and other nuclear genes for this species.
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S1005
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref15310,
author = {Jeff J. Doyle and Jane L. Doyle and Carole Harbison},
title = {Chloroplast-expressed glutamine synthetase in Glycine and related Leguminosae: phylogeny, gene duplication, and ancient polyploidy.},
year = {2003},
keywords = {},
doi = {10.1043/02-31.1},
url = {},
pmid = {},
journal = {Systematic Botany},
volume = {28},
number = {3},
pages = {567--577},
abstract = {The nuclear gene encoding the chloroplast-expressed isozyme of glutamine synthetase (ncpGS) is single copy in diploid angiosperms but is duplicated in species of Glycine, a paleopolyploid genus. The two Glycine paralogues are sister to one another in phylogenetic analyses, a pattern that suggests that this ncpGS duplication occurred subsequent to the divergence of Glycine from extant Glycininae. This pattern does not support an allopolyploid hypothesis in which genomes from close relatives of extant genera combined to form the polyploid, 2n = 40 genome of Glycine, nor with an ancient gene duplication shared with other Glycininae. Rather, it is consistent with autopolyploidy or with a simple gene duplication. Teramnus ncpGS was the closest relative of the two Glycine paralogues, supporting a sister-group relationship between these two genera. In contrast, ncpGS results suggested that Sinodolichos, a genus that has been suggested as a possible congener of Glycine, is more closely related to Pseueminia and Pseudovigna. Both paralogues of ncpGS identify known genome groups among species of Glycine subg. Glycine, but neither strongly resolves relationships among these groups. Incongruence between the two paralogues in the placement of G. falcata mirrors incongruence between the chloroplast genome and other nuclear genes for this species.}
}
- Show RIS reference
TY - JOUR
ID - 15310
AU - Doyle,Jeff J.
AU - Doyle,Jane L.
AU - Harbison,Carole
T1 - Chloroplast-expressed glutamine synthetase in Glycine and related Leguminosae: phylogeny, gene duplication, and ancient polyploidy.
PY - 2003
KW -
UR - http://dx.doi.org/10.1043/02-31.1
N2 - The nuclear gene encoding the chloroplast-expressed isozyme of glutamine synthetase (ncpGS) is single copy in diploid angiosperms but is duplicated in species of Glycine, a paleopolyploid genus. The two Glycine paralogues are sister to one another in phylogenetic analyses, a pattern that suggests that this ncpGS duplication occurred subsequent to the divergence of Glycine from extant Glycininae. This pattern does not support an allopolyploid hypothesis in which genomes from close relatives of extant genera combined to form the polyploid, 2n = 40 genome of Glycine, nor with an ancient gene duplication shared with other Glycininae. Rather, it is consistent with autopolyploidy or with a simple gene duplication. Teramnus ncpGS was the closest relative of the two Glycine paralogues, supporting a sister-group relationship between these two genera. In contrast, ncpGS results suggested that Sinodolichos, a genus that has been suggested as a possible congener of Glycine, is more closely related to Pseueminia and Pseudovigna. Both paralogues of ncpGS identify known genome groups among species of Glycine subg. Glycine, but neither strongly resolves relationships among these groups. Incongruence between the two paralogues in the placement of G. falcata mirrors incongruence between the chloroplast genome and other nuclear genes for this species.
L3 - 10.1043/02-31.1
JF - Systematic Botany
VL - 28
IS - 3
SP - 567
EP - 577
ER -