Plastid genomes reveal evolutionary shifts in elevational range and flowering time of Osmanthus (Oleaceae)

Species of Osmanthus are economically important ornamental trees, yet information regarding their plastid genomes (plastomes) have rarely been reported, thus hindering taxonomic and evolutionary studies of this small but enigmatic genus. Here, we performed comparative genomics and evolutionary analyses on plastomes of 16 of the 28 currently accepted species, with 11 plastomes newly sequenced. Phylogenetic studies identified four main lineages within the genus that are here designated the: “Caucasian Osmanthus” (corresponding to O. decorus), “Siphosmanthus” (corresponding to O. sect. Siphosmanthus), “O. serrulatus + O. yunnanensis,” and “Core Osmanthus: (corresponding to O. sect. Osmanthus + O. sect. Linocieroides). Molecular clock analysis suggested that Osmanthus split from its sister clade c. 15.83 Ma. The estimated crown ages of the lineages were the following: genus Osmanthus at 12.66 Ma; “Siphosmanthus” clade at 5.85 Ma; “O. serrulatus + O. yunnanensis” at 4.89 Ma; and “Core Osmanthus: clade at 6.2 Ma. Ancestral state reconstructions and trait mapping showed that ancestors of Osmanthus were spring flowering and originated at lower elevations. Phylogenetic principal component analysis clearly distinguished spring‐flowering species from autumn‐flowering species, suggesting that flowering time differentiation is related to the difference in ecological niches. Nucleotide substitution rates of 80 common genes showed slow evolutionary pace and low nucleotide variations, all genes being subjected to purifying selection.     

三叶木通转录组分析及三萜皂苷生物合成途径关键酶基因的发掘

为了解三叶木通(Akebia trifoliata(Thunb.)Koidz.)的三萜皂苷合成途径及其关键酶,本研究对其花、叶、根、茎进行转录组测序,组装获得了57.25 Gb数据,含140 859个unigenes,序列平均长度为1350 bp。KEGG代谢通路富集结果显示,517个unigenes参与三萜皂苷合成相关的3条代谢途径,其中415个unigenes编码三萜皂苷生物合成途径的19个关键酶。对三萜皂苷生物合成过程中的关键酶角鲨烯环氧酶(SE)进行序列分析和同源建模,发现其具有保守的底物结合结构域。将三叶木通茎与花、叶、根的基因表达水平进行比较,发现茎与根相比较其上调基因数目最多,其中295个差异表达基因(DEGs)与三萜皂苷生物合成途径相关。