The grape family consists of 16 genera and ca. 950 species. It is best known for the economically important fruit crop - the grape Vitis vinifera. The deep phylogenetic relationships and character evolution of the grape family have attracted the attention of researchers in recent years. We herein reconstruct the phylogenomic relationships within Vitaceae using nuclear and plastid genes based on the Hyb-Seq approach and test the newly proposed classification system of the family. The five tribes of the grape family, including Ampelopsideae, Cayratieae, Cisseae, Parthenocisseae, and Viteae, are each robustly supported by both nuclear and chloroplast genomic data and the backbone relationships are congruent with previous reports. The cupular floral disc (raised above and free from ovary at the upper part) is an ancestral state of Vitaceae, with the inconspicuous floral disc as derived in the tribe Parthenocisseae, and the state of adnate to the ovary as derived in the tribe Viteae. The 5-merous floral pattern was inferred to be the ancestral in Vitaceae, with the 4-merous flowers evolved at least two times in the family. The compound dichasial cyme (cymose with two secondary axes) is ancestral in Vitaceae and the thyrse inflorescence (a combination of racemose and cymose branching) in tribe Viteae is derived. The ribbon-like trichome only evolved once in Vitaceae, as a synapomorphy for the tribe Viteae.
Keywords: Character evolution; Chloroplast genome; Grape family; Hyb-Seq; Phylogenomics; Vitaceae.
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