期刊
AMERICAN JOURNAL OF BOTANY
卷 109, 期 6, 页码 1035-1046出版社
WILEY
DOI: 10.1002/ajb2.1860
关键词
Diplacus; Erythranthe; Lamiales; Mimulus; reticulate evolution; transcriptome; whole genome duplication
资金
- University of Minnesota
- China Scholarship Council [CSC: 201904910676]
- National Science Foundation [DEB-1856158]
- Frost Fund from the California Polytechnic State University
In this study, phylogenomic datasets using genomes and transcriptomes were used to investigate Monkeyflower (Phrymaceae). The results showed that Phrymaceae exhibited monophyly and gene tree discordance was observed among its tribes. The study also identified potential reticulation events and small-scale genome duplications that may have contributed to the macroevolutionary diversification of Phrymaceae.
Premise Phylogenomic datasets using genomes and transcriptomes provide rich opportunities beyond resolving bifurcating phylogenetic relationships. Monkeyflower (Phrymaceae) is a model system for evolutionary ecology. However, it lacks a well-supported phylogeny as a basis for a stable taxonomy and for macroevolutionary comparisons. Methods We sampled 24 genomes and transcriptomes in Phrymaceae and closely related families, including eight newly sequenced transcriptomes. We reconstructed the phylogeny using IQ-TREE and ASTRAL, evaluated gene tree discordance using PhyParts, Quartet Sampling, and a cloudogram, and carried out reticulation analyses using PhyloNet and HyDe. We searched for whole genome duplication (WGD) events using chromosome numbers, synonymous distances, and gene duplication events as evidence. Results Most gene trees support the monophyly of Phrymaceae and each of its tribes. Most gene trees also support tribe Mimuleae being sister to Phrymeae + Diplaceae + Leucocarpeae, with extensive gene tree discordance among the latter three. Despite the discordance, the monophyly of Mimulus s.l. is rejected, and no individual reticulation event among the Phrymaceae tribes is well-supported. Reticulation likely occurred among Erythranthe bicolor and closely related species. No ancient WGD was detected in Phrymaceae. Instead, small-scale duplications are among potential drivers of macroevolutionary diversification of Phrymaceae. Conclusions We show that analysis of reticulate evolution is sensitive to taxon sampling and methods used. We also demonstrate that phylogenomic datasets using genomes and transcriptomes present rich opportunities to investigate gene family evolution and genome duplication events involved in lineage diversification and adaptation.
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