Premise: Cycas is an important gymnosperm genus, and the most diverse of all cycad genera. The C. taiwaniana complex of species are morphologically similar and difficult to distinguish due to a lack of genomic resources.
Methods: We characterized the transcriptomes of two closely related and endangered Cycas species endemic to Hainan, China: C. hainanensis and C. changjiangensis. Three single-copy nuclear genes in the C. taiwaniana complex were sequenced based on these transcriptomes, enabling us to evaluate the species boundaries using the multispecies coalescent method implemented in the Bayesian Phylogenetics and Phylogeography program.
Results: We obtained 68,184 and 81,561 unigenes for C. changjiangensis and C. hainanensis, respectively. We identified six positively selected genes that are mainly involved in stimulus responses, suggesting that environmental adaptation may have played an important role in the relatively recent divergence of these species. The similar K S distribution peaks at 1.0 observed for the paralogs in the two species indicate a common whole-genome duplication event. Our species delimitation analysis indicated that the C. taiwaniana complex consists of three distinct species, which correspond to the previously reported morphological differences.
Discussion: Our study provides valuable genetic resources for Cycas species and guidance for the taxonomic treatment of the C. taiwaniana complex, as well as new insights into evolution of species within Cycas.
Keywords: Cycas; comparative transcriptome; gene duplication; positively selected genes; species delimitation.
© 2019 Wang et al. Applications in Plant Sciences is published by Wiley Periodicals, Inc. on behalf of the Botanical Society of America.