Comparative chloroplast genomes of camellia species

Camellia, comprising more than 200 species, is a valuable economic commodity due to its enormously popular commercial products: tea leaves, flowers, and high-quality edible oils. It is the largest and most important genus in the family Theaceae. However, phylogenetic resolution of the species has pr...

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Bibliographic Details
Published in:PloS one 2013-08, Vol.8 (8), p.e73053-e73053
Main Authors: Yang, Jun-Bo, Yang, Shi-Xiong, Li, Hong-Tao, Yang, Jing, Li, De-Zhu
Format: Article
Language:English
Subjects:
Assemblies
Bar codes
Biodiversity
Biogeography
Biological evolution
Camellia
Camellia - classification
Camellia - genetics
Chloroplasts
Chloroplasts - genetics
Classification
Computational Biology
Deoxyribonucleic acid
DNA
DNA sequencing
Edible oils
Evolution
Flowers
Gene duplication
Gene Order
Gene sequencing
Genes
Genetic Variation
Genome, Chloroplast
Genomes
Genomics
Germplasm
Laboratories
Leaves
Molecular Sequence Data
Morphology
Phylogenetics
Phylogeny
Plant sciences
Primers
Repetitive Sequences, Nucleic Acid
RNA polymerase
Sequence Analysis, DNA
Species
Studies
Subdivisions
Taxonomy
Tea
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Summary:Camellia, comprising more than 200 species, is a valuable economic commodity due to its enormously popular commercial products: tea leaves, flowers, and high-quality edible oils. It is the largest and most important genus in the family Theaceae. However, phylogenetic resolution of the species has proven to be difficult. Consequently, the interspecies relationships of the genus Camellia are still hotly debated. Phylogenomics is an attractive avenue that can be used to reconstruct the tree of life, especially at low taxonomic levels. Seven complete chloroplast (cp) genomes were sequenced from six species representing different subdivisions of the genus Camellia using Illumina sequencing technology. Four junctions between the single-copy segments and the inverted repeats were confirmed and genome assemblies were validated by PCR-based product sequencing using 123 pairs of primers covering preliminary cp genome assemblies. The length of the Camellia cp genome was found to be about 157kb, which contained 123 unique genes and 23 were duplicated in the IR regions. We determined that the complete Camellia cp genome was relatively well conserved, but contained enough genetic differences to provide useful phylogenetic information. Phylogenetic relationships were analyzed using seven complete cp genomes of six Camellia species. We also identified rapidly evolving regions of the cp genome that have the potential to be used for further species identification and phylogenetic resolution. In this study, we wanted to determine if analyzing completely sequenced cp genomes could help settle these controversies of interspecies relationships in Camellia. The results demonstrate that cp genome data are beneficial in resolving species definition because they indicate that organelle-based "barcodes", can be established for a species and then used to unmask interspecies phylogenetic relationships. It reveals that phylogenomics based on cp genomes is an effective approach for achieving phylogenetic resolution between Camellia species.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0073053