@ARTICLE{TreeBASE2Ref14604,
author = {Annie Archambault and Anne Bruneau},
title = {Phylogenetic utility of the LEAFY/FLORICAULA gene in the Caesalpinioideae (Leguminosae): Gene duplication and a novel insertion.},
year = {2004},
keywords = {},
doi = {10.1600/0363644041744374},
url = {},
pmid = {},
journal = {Systematic Botany},
volume = {29},
number = {3},
pages = {609--626},
abstract = {Nuclear sequence data are needed for plant systematics studies in order to supplement data from the chloroplast genome and from morphology. We cloned and sequenced a partial sequence of LEAFY, from the 3' end of the second intron to the 3' end of the third exon, for 44 species from the three Leguminosae subfamilies, but with greater taxon sampling in the basal subfamily Caesalpinioideae. LEAFY is a single copy gene in the Leguminosae, except in members of tribe Detarieae where our phylogenetic analyses suggest that two copies are present, one of them might be a pseudogene. Sampled species Brownea Jacq.and Browneopsis Huber (Detarieae) possess a large unique insertion, which appears to be a useful taxonomic marker for this bigeneric group. The rate of substitution in the coding sequences of LEAFY gives a phylogenetic signal at a broad spectrum of phylogenetic levels, from the intergeneric level to the family level. The second intron is highly variable, and for the copy that seems to be under relaxed selective constraint, the sequences cannot be compared between species of different tribes or subfamilies. The phylogenetic analysis of LEAFY sequences results in topologies that, overall, are consistent with past taxonomy and chloroplast sequence analyses. However, incongruence between the chloroplast trnL intron and one of the copies of LEAFY is found in the tribe Detarieae. This incongruence remains poorly explained, but may result from hidden paralogy or lineage sorting of divergent alleles. This study thus provides an example of the unexpected complexity that can arise when evaluating the plylogenetic utility of a low-copy nuclear gene.}
}
Citation for Study 1098
Citation title:
"Phylogenetic utility of the LEAFY/FLORICAULA gene in the Caesalpinioideae (Leguminosae): Gene duplication and a novel insertion.".
This study was previously identified under the legacy study ID S1003
(Status: Published).
Citation
Archambault A., & Bruneau A. 2004. Phylogenetic utility of the LEAFY/FLORICAULA gene in the Caesalpinioideae (Leguminosae): Gene duplication and a novel insertion. Systematic Botany, 29(3): 609-626.
Authors
-
Archambault A.
-
Bruneau A.
Abstract
Nuclear sequence data are needed for plant systematics studies in order to supplement data from the chloroplast genome and from morphology. We cloned and sequenced a partial sequence of LEAFY, from the 3' end of the second intron to the 3' end of the third exon, for 44 species from the three Leguminosae subfamilies, but with greater taxon sampling in the basal subfamily Caesalpinioideae. LEAFY is a single copy gene in the Leguminosae, except in members of tribe Detarieae where our phylogenetic analyses suggest that two copies are present, one of them might be a pseudogene. Sampled species Brownea Jacq.and Browneopsis Huber (Detarieae) possess a large unique insertion, which appears to be a useful taxonomic marker for this bigeneric group. The rate of substitution in the coding sequences of LEAFY gives a phylogenetic signal at a broad spectrum of phylogenetic levels, from the intergeneric level to the family level. The second intron is highly variable, and for the copy that seems to be under relaxed selective constraint, the sequences cannot be compared between species of different tribes or subfamilies. The phylogenetic analysis of LEAFY sequences results in topologies that, overall, are consistent with past taxonomy and chloroplast sequence analyses. However, incongruence between the chloroplast trnL intron and one of the copies of LEAFY is found in the tribe Detarieae. This incongruence remains poorly explained, but may result from hidden paralogy or lineage sorting of divergent alleles. This study thus provides an example of the unexpected complexity that can arise when evaluating the plylogenetic utility of a low-copy nuclear gene.
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S1098
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref14604,
author = {Annie Archambault and Anne Bruneau},
title = {Phylogenetic utility of the LEAFY/FLORICAULA gene in the Caesalpinioideae (Leguminosae): Gene duplication and a novel insertion.},
year = {2004},
keywords = {},
doi = {10.1600/0363644041744374},
url = {},
pmid = {},
journal = {Systematic Botany},
volume = {29},
number = {3},
pages = {609--626},
abstract = {Nuclear sequence data are needed for plant systematics studies in order to supplement data from the chloroplast genome and from morphology. We cloned and sequenced a partial sequence of LEAFY, from the 3' end of the second intron to the 3' end of the third exon, for 44 species from the three Leguminosae subfamilies, but with greater taxon sampling in the basal subfamily Caesalpinioideae. LEAFY is a single copy gene in the Leguminosae, except in members of tribe Detarieae where our phylogenetic analyses suggest that two copies are present, one of them might be a pseudogene. Sampled species Brownea Jacq.and Browneopsis Huber (Detarieae) possess a large unique insertion, which appears to be a useful taxonomic marker for this bigeneric group. The rate of substitution in the coding sequences of LEAFY gives a phylogenetic signal at a broad spectrum of phylogenetic levels, from the intergeneric level to the family level. The second intron is highly variable, and for the copy that seems to be under relaxed selective constraint, the sequences cannot be compared between species of different tribes or subfamilies. The phylogenetic analysis of LEAFY sequences results in topologies that, overall, are consistent with past taxonomy and chloroplast sequence analyses. However, incongruence between the chloroplast trnL intron and one of the copies of LEAFY is found in the tribe Detarieae. This incongruence remains poorly explained, but may result from hidden paralogy or lineage sorting of divergent alleles. This study thus provides an example of the unexpected complexity that can arise when evaluating the plylogenetic utility of a low-copy nuclear gene.}
}
- Show RIS reference
TY - JOUR
ID - 14604
AU - Archambault,Annie
AU - Bruneau,Anne
T1 - Phylogenetic utility of the LEAFY/FLORICAULA gene in the Caesalpinioideae (Leguminosae): Gene duplication and a novel insertion.
PY - 2004
KW -
UR - http://dx.doi.org/10.1600/0363644041744374
N2 - Nuclear sequence data are needed for plant systematics studies in order to supplement data from the chloroplast genome and from morphology. We cloned and sequenced a partial sequence of LEAFY, from the 3' end of the second intron to the 3' end of the third exon, for 44 species from the three Leguminosae subfamilies, but with greater taxon sampling in the basal subfamily Caesalpinioideae. LEAFY is a single copy gene in the Leguminosae, except in members of tribe Detarieae where our phylogenetic analyses suggest that two copies are present, one of them might be a pseudogene. Sampled species Brownea Jacq.and Browneopsis Huber (Detarieae) possess a large unique insertion, which appears to be a useful taxonomic marker for this bigeneric group. The rate of substitution in the coding sequences of LEAFY gives a phylogenetic signal at a broad spectrum of phylogenetic levels, from the intergeneric level to the family level. The second intron is highly variable, and for the copy that seems to be under relaxed selective constraint, the sequences cannot be compared between species of different tribes or subfamilies. The phylogenetic analysis of LEAFY sequences results in topologies that, overall, are consistent with past taxonomy and chloroplast sequence analyses. However, incongruence between the chloroplast trnL intron and one of the copies of LEAFY is found in the tribe Detarieae. This incongruence remains poorly explained, but may result from hidden paralogy or lineage sorting of divergent alleles. This study thus provides an example of the unexpected complexity that can arise when evaluating the plylogenetic utility of a low-copy nuclear gene.
L3 - 10.1600/0363644041744374
JF - Systematic Botany
VL - 29
IS - 3
SP - 609
EP - 626
ER -