6533b7cffe1ef96bd1258638
RESEARCH PRODUCT
Chloroplast genomes of Rubiaceae: Comparative genomics and molecular phylogeny in subfamily Ixoroideae.
Jean-claude CharrAndrea GaravitoRomain GuyotSteven JanssensSerigne Ndiawar LyPerla HamonPetra De BlockPieter AsselmanPieter AsselmanChristophe GuyeuxArnaud Moulysubject
0106 biological sciences0301 basic medicineChloroplastsPlant GenomesCoffeaRubiaceaePlant SciencePlant Genetics01 natural sciencesGenomePlant GenomicsPlastidsGenome EvolutionPhylogenyData ManagementMultidisciplinaryIxoroideaeQDNA ChloroplastRHigh-Throughput Nucleotide Sequencingfood and beveragesPhylogenetic AnalysisGenomicsPhylogeneticsChloroplast DNAEngineering and TechnologyMedicineGenome PlantResearch ArticleBiotechnologyGenome evolutionComputer and Information SciencesNuclear genePlant Cell BiologyScienceGenomicsBioengineeringBiology010603 evolutionary biologyPolymorphism Single NucleotideMolecular EvolutionEvolution Molecular03 medical and health sciencesChloroplast GenomeGeneticsEvolutionary SystematicsGenome ChloroplastTaxonomyComparative genomicsEvolutionary BiologyBiology and Life SciencesComputational BiologyCell BiologySequence Analysis DNAComparative Genomicsbiology.organism_classificationGenome AnalysisGenomic Libraries030104 developmental biologyEvolutionary biologyPlant BiotechnologyReference genomedescription
In Rubiaceae phylogenetics, the number of markers often proved a limitation with authors failing to provide well-supported trees at tribal and generic levels. A robust phylogeny is a prerequisite to study the evolutionary patterns of traits at different taxonomic levels. Advances in next-generation sequencing technologies have revolutionized biology by providing, at reduced cost, huge amounts of data for an increased number of species. Due to their highly conserved structure, generally recombination-free, and mostly uniparental inheritance, chloroplast DNA sequences have long been used as choice markers for plant phylogeny reconstruction. The main objectives of this study are: 1) to gain insight in chloroplast genome evolution in the Rubiaceae (Ixoroideae) through efficient methodology for de novo assembly of plastid genomes; and, 2) to test the efficiency of mining SNPs in the nuclear genome of Ixoroideae based on the use of a coffee reference genome to produce well-supported nuclear trees. We assembled whole chloroplast genome sequences for 27 species of the Rubiaceae subfamily Ixoroideae using next-generation sequences. Analysis of the plastid genome structure reveals a relatively good conservation of gene content and order. Generally, low variation was observed between taxa in the boundary regions with the exception of the inverted repeat at both the large and short single copy junctions for some taxa. An average of 79% of the SNP determined in the Coffea genus are transferable to Ixoroideae, with variation ranging from 35% to 96%. In general, the plastid and the nuclear genome phylogenies are congruent with each other. They are well-resolved with well-supported branches. Generally, the tribes form well-identified clades but the tribe Sherbournieae is shown to be polyphyletic. The results are discussed relative to the methodology used and the chloroplast genome features in Rubiaceae and compared to previous Rubiaceae phylogenies.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2020-01-01 | PLoS ONE |