Abstract
Pantropical Bulbophyllum, with ∼2,200 species, is one of the largest genera in Orchidaceae. Although phylogenetics and taxonomy of the ∼60 American species in the genus are generally well understood, some species complexes need more study to clearly delimit their component species and provide information about their evolutionary history. Previous research has suggested that the plastid genome includes phylogenetic markers capable of providing resolution at low taxonomic levels, and thus it could be an effective tool if these divergent regions can be identified. In this study, we sequenced the complete plastid genome of eight Bulbophyllum species, representing five of six Neotropical taxonomic sections. All plastomes conserve the typical quadripartite structure, and, although the general structure of plastid genomes is conserved, differences in ndh-gene composition and total length were detected. Total length was determined by contraction and expansion of the small single-copy region, a result of an independent loss of the seven ndh genes. Selection analyses indicated that protein-coding genes were generally well conserved, but in four genes, we identified 95 putative sites under positive selection. Furthermore, a total of 54 polymorphic simple sequence repeats were identified, for which we developed amplification primers. In addition, we propose 10 regions with potential to improve phylogenetic analyses of Neotropical Bulbophyllum species.
Highlights
Bulbophyllum Thouars is the largest Pantropical genus of Orchidaceae, with ∼2,200 species (WCSP, 2018)
The eight Bulbophyllum plastid genomes were 146,401– 151,493 bp long; the smallest was that of Bulbophyllum plumosum Barb.Rodr., whereas the largest was that of Bulbophyllum regnellii Rchb.f
Eight CDSs, eight transfer RNAs (tRNAs), and all four ribosomal DNAs (rDNAs) were present in the inverted repeated (IR) (Supplementary Table 3)
Summary
Bulbophyllum Thouars is the largest Pantropical genus of Orchidaceae, with ∼2,200 species (WCSP, 2018). In the Neotropics, the genus is represented by six clades, two north of the Equator and four mainly in the Brazilian Atlantic Rainforest and Cerrado (Smidt and Borba, 2007; Smidt et al, 2011). Bulbophyllum species are recognized worldwide for their diversity and for the potential use of their compounds in the fields of traditional medicine and agricultural pest management. These orchids contain aromatic compounds that have properties of use in human health, such as in treatment of tumors and conception problems and production of antifebriles (Wu et al, 2006; Chen et al, 2008; Lalitharani et al, 2011). Pests of many crops, can be attracted to traps using floral fragrances of Bulbophyllum (Tan et al, 2006; Tan and Nishida, 2007; Jaleel et al, 2018)
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