Abstract
Chloroplast genomes are considered to be highly conserved. Nevertheless, differences in their sequences are an important source of phylogenetically informative data. Chloroplast genomes are increasingly applied in evolutionary studies of angiosperms, including Magnoliaceae. Recent studies have focused on resolving the previously debated classification of the family using a phylogenomic approach and chloroplast genome data. However, most Neotropical clades and recently described species have not yet been included in molecular studies. We performed sequencing, assembly, and annotation of 15 chloroplast genomes from Neotropical Magnoliaceae species. We compared the newly assembled chloroplast genomes with 22 chloroplast genomes from across the family, including representatives from each genus and section. Family-wide, the chloroplast genomes presented a length of about 160 kb. The gene content in all species was constant, with 145 genes. The intergenic regions showed a higher level of nucleotide diversity than the coding regions. Differences were higher among genera than within genera. The phylogenetic analysis in Magnolia showed two main clades and corroborated that the current infrageneric classification does not represent natural groups. Although chloroplast genomes are highly conserved in Magnoliaceae, the high level of diversity of the intergenic regions still resulted in an important source of phylogenetically informative data, even for closely related taxa.
Highlights
Chloroplasts in plant cells evolved by endosymbiosis and contain their own genetic systems [1,2]
The annotations generated by GeSeq reported a total of 145 genes for all species, of which 92 corresponded to protein-coding genes, 45 to transfer RNAs, and 8 to ribosomal RNAs
Chloroplast genomes have proven to be a reliable source of information for addressing phylogenetic questions in angiosperms, even for closely related taxa
Summary
Chloroplasts in plant cells evolved by endosymbiosis and contain their own genetic systems [1,2]. Angiosperm chloroplasts have lengths between 72 and 217 kb and contain between 110 and 130 genes [5]. The chloroplast genome (plastome) is usually very conserved regarding gene content, intron content, and gene organization [6,7]. This has been related to the organization of plastid genes on partitions, the usually uniparental inheritance, as well as some highly effective repair mechanisms [8]. The plastome has proven to be a valuable source of information for phylogenetics, population genetics, and evolutionary studies [11,12,13,14,15]
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