Abstract
Plastid genomes are in general highly conserved given their slow evolutionary rate, and thus large changes in their structure are unusual. However, when specific rearrangements are present, they are often phylogenetically informative. Asteraceae is a highly diverse family whose evolution is long driven by polyploidy (up to 48x) and hybridization, both processes usually complicating systematic inferences. In this study, we generated one of the most comprehensive plastome-based phylogenies of family Asteraceae, providing information about the structure, genetic diversity and repeat composition of these sequences. By comparing the whole-plastome sequences obtained, we confirmed the double inversion located in the long single-copy region, for most of the species analyzed (with the exception of basal tribes), a well-known feature for Asteraceae plastomes. We also showed that genome size, gene order and gene content are highly conserved along the family. However, species representative of the basal subfamily Barnadesioideae—as well as in the sister family Calyceraceae—lack the pseudogene rps19 located in one inverted repeat. The phylogenomic analysis conducted here, based on 63 protein-coding genes, 30 transfer RNA genes and 21 ribosomal RNA genes from 36 species of Asteraceae, were overall consistent with the general consensus for the family’s phylogeny while resolving the position of tribe Senecioneae and revealing some incongruences at tribe level between reconstructions based on nuclear and plastid DNA data.
Highlights
The sunflower family (Asteraceae or Compositae) is probably the most diversified of plants, with about 25,000–35,000 species, being distributed worldwide and accounting for ca. 10% of angiosperms [1,2]
The mixed sampling strategy, combining Illumina sequences generated for this study and raw genomic data obtained from public repositories, resulted in 30 new plastomes for Asteraceae, completely reconstructed and circularized
Plastid lengths were similar in all species analyzed, Achillea millefolium being the species with the smallest plastid genome (149,113 bp) and Melampodium linearilobum the biggest one (153,872 bp)
Summary
The sunflower family (Asteraceae or Compositae) is probably the most diversified of plants, with about 25,000–35,000 species, being distributed worldwide and accounting for ca. 10% of angiosperms [1,2]. Hybridization and polyploidy are active in the family, with ploidy levels up to 48x [5], and several whole-genome duplications (WGDs) [6], together with frequent hybridization phenomena [7,8], are linked to the massive diversification of Asteraceae, complicating, at the same time, its systematics. Other cytological features, such as the presence of an exceptional linked arrangement of ribosomal RNA genes in many of its species [9] add interest to the study of this family
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