Abstract
BackgroundThe Orchidaceae family is one of the most diverse among flowering plants and serves as an important research model for plant evolution, especially “evo-devo” study on floral organs. Recently, sequencing of several orchid genomes has greatly improved our understanding of the genetic basis of orchid biology. To date, however, most sequenced genomes are from the Epidendroideae subfamily. To better elucidate orchid evolution, greater attention should be paid to other orchid lineages, especially basal lineages such as Apostasioideae.ResultsHere, we present a genome sequence of Apostasia ramifera, a terrestrial orchid species from the Apostasioideae subfamily. The genomes of A. ramifera and other orchids were compared to explore the genetic basis underlying orchid species richness. Genome-based population dynamics revealed a continuous decrease in population size over the last 100 000 years in all studied orchids, although the epiphytic orchids generally showed larger effective population size than the terrestrial orchids over most of that period. We also found more genes of the terpene synthase gene family, resistant gene family, and LOX1/LOX5 homologs in the epiphytic orchids.ConclusionsThis study provides new insights into the adaptive evolution of orchids. The A. ramifera genome sequence reported here should be a helpful resource for future research on orchid biology.
Highlights
The Orchidaceae family is one of the most diverse among flowering plants and serves as an important research model for plant evolution, especially “evo-devo” study on floral organs
We sequenced the genome of A. ramifera, a basal Apostasioideae lineage terrestrial orchid, and carried out comparative genomic analyses of seven orchid genomes including that of A. ramifera
We revealed the population size histories of different orchid species and discovered a continuous decrease in population size from the genomes of these species over the last 100 000 years
Summary
The Orchidaceae family is one of the most diverse among flowering plants and serves as an important research model for plant evolution, especially “evo-devo” study on floral organs. Species within Apostasioideae exhibit various primitive traits, such as radially symmetrical flowers and no labella, supporting the placement of this subfamily as a sister clade to all other orchids [10] These primitive features are considered ancient characteristics of the orchid lineage [10]. Zhang et al [3] published the A. shenzhenica genome and identified an orchid-specific whole-genome duplication event as well as changes in the MADS-box gene family associated with different orchid characteristics. This is the first (and only) genome reported for the Apostasioideae subfamily, with most currently published genomes belonging to the Epidendroideae subfamily. Comparative genomics were carried out with six other published orchid genomes to provide insight into orchid evolution
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