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Citation for Study 10863

Citation title: "Phylogenetic Relationships and Chromosome Number Evolution in Passiflora".

Study name: "Phylogenetic Relationships and Chromosome Number Evolution in Passiflora".

This study is part of submission 10853 (Status: Published).

Citation

Hansen A., Gilbert L., Simpson B., Downie S., Cervi A., & Jansen R.K. 2006. Phylogenetic Relationships and Chromosome Number Evolution in Passiflora. Systematic Botany, 31(1): 138-150.

Authors

• Hansen A.
• Gilbert L.
• Simpson B.
• Downie S.
• Cervi A.
• Jansen R.K.

Abstract

The phylogenetic relationships and chromosomal evolution of the diverse tropical genus Passiflora (Passiflor- aceae) are explored using data from two chloroplast markers: the rpoC1 intron and the trnL/trnT spacer region. A survey of the presence or absence of the rpoC1 intron in 136 species representing 17 of Killip?s (1938) 22 subgenera of Passiflora and four other genera in the Passifloraceae revealed intron losses in 46 taxa. A minimum of two losses were confirmed by a parametric bootstrap approach on sequence data from the trnL/trnT chloroplast non-coding region for 61 taxa. The results of phylogenetic analyses of the trnL/trnT sequence data support the reduction of Killip?s 22 subgenera to four as proposed in a new classification system by Feuillet and MacDougal (2004). The monophyly of the ?n􏰄6? and ?n􏰄9? chromosomal and morphological groups is strongly supported. In addition, these data indicate that Passiflora biflora, or closely related species, is the likely continental sister to the red-flowered Caribbean taxa, while P. auriculata is weakly supported as the New World sister to the Old World Passifloras. Finally, character optimization of chromosome numbers on the phylogenetic tree supports x􏰄12 as the base chromosome number for Passiflora.

External links

• DOI: 10.1600/036364406775971769

About this resource

• Canonical resource URI: http://purl.org/phylo/treebase/phylows/study/TB2:S10863
• Other versions: Nexus NeXML
• Show BibTeX reference

  		@ARTICLE{TreeBASE2Ref19202,
  	 author = {A. Katie  Hansen and Lawrence E.  Gilbert and Beryl B.  Simpson and Stephen R.  Downie and Armando C.  Cervi and Robert K Jansen},
  	 title = {Phylogenetic Relationships and Chromosome Number Evolution in Passiflora},
  	 year = {2006},
  	 keywords = {},
  	 doi = {10.1600/036364406775971769},
  	 url = {http://},
  	 pmid = {},
  	 journal = {Systematic Botany},
  	 volume = {31},
  	 number = {1},
  	 pages = {138--150},
  	 abstract = {The phylogenetic relationships and chromosomal evolution of the diverse tropical genus Passiflora (Passiflor- aceae) are explored using data from two chloroplast markers: the rpoC1 intron and the trnL/trnT spacer region. A survey of the presence or absence of the rpoC1 intron in 136 species representing 17 of Killip?s (1938) 22 subgenera of Passiflora and four other genera in the Passifloraceae revealed intron losses in 46 taxa. A minimum of two losses were confirmed by a parametric bootstrap approach on sequence data from the trnL/trnT chloroplast non-coding region for 61 taxa. The results of phylogenetic analyses of the trnL/trnT sequence data support the reduction of Killip?s 22 subgenera to four as proposed in a new classification system by Feuillet and MacDougal (2004). The monophyly of the ?n􏰄6? and ?n􏰄9? chromosomal and morphological groups is strongly supported. In addition, these data indicate that Passiflora biflora, or closely related species, is the likely continental sister to the red-flowered Caribbean taxa, while P. auriculata is weakly supported as the New World sister to the Old World Passifloras. Finally, character optimization of chromosome numbers on the phylogenetic tree supports x􏰄12 as the base chromosome number for Passiflora.}
  }
  		

• Show RIS reference

  		TY  - JOUR
  ID  - 19202
  AU  - Hansen,A. Katie 
  AU  - Gilbert,Lawrence E. 
  AU  - Simpson,Beryl B. 
  AU  - Downie,Stephen R. 
  AU  - Cervi,Armando C. 
  AU  - Jansen,Robert K
  T1  - Phylogenetic Relationships and Chromosome Number Evolution in Passiflora
  PY  - 2006
  KW  - 
  UR  - http://dx.doi.org/10.1600/036364406775971769
  N2  - The phylogenetic relationships and chromosomal evolution of the diverse tropical genus Passiflora (Passiflor- aceae) are explored using data from two chloroplast markers: the rpoC1 intron and the trnL/trnT spacer region. A survey of the presence or absence of the rpoC1 intron in 136 species representing 17 of Killip?s (1938) 22 subgenera of Passiflora and four other genera in the Passifloraceae revealed intron losses in 46 taxa. A minimum of two losses were confirmed by a parametric bootstrap approach on sequence data from the trnL/trnT chloroplast non-coding region for 61 taxa. The results of phylogenetic analyses of the trnL/trnT sequence data support the reduction of Killip?s 22 subgenera to four as proposed in a new classification system by Feuillet and MacDougal (2004). The monophyly of the ?n􏰄6? and ?n􏰄9? chromosomal and morphological groups is strongly supported. In addition, these data indicate that Passiflora biflora, or closely related species, is the likely continental sister to the red-flowered Caribbean taxa, while P. auriculata is weakly supported as the New World sister to the Old World Passifloras. Finally, character optimization of chromosome numbers on the phylogenetic tree supports x􏰄12 as the base chromosome number for Passiflora.
  L3  - 10.1600/036364406775971769
  JF  - Systematic Botany
  VL  - 31
  IS  - 1
  SP  - 138
  EP  - 150
  ER  -