Evolutionary Dynamics of Chloroplast Genome and Codon Usage in the Genus Diospyros (Ebenaceae)
Jisi Zhang, Zhuo Li

TL;DR
This study examines the chloroplast genome evolution and codon usage in 15 Diospyros species to understand their genetic diversity and evolutionary relationships.
Contribution
The study provides the first complete chloroplast genome assembly for Diospyros tsangii and identifies evolutionary patterns and codon usage preferences across the genus.
Findings
Genetic diversity is low in IR regions and high in LSC and SSC regions of Diospyros chloroplast genomes.
Codon usage patterns are shaped primarily by natural selection rather than mutation pressure.
Phylogenetic analysis reveals three main evolutionary groups and close relationships between specific species.
Abstract
Diospyros is a large and important genus of trees with ecological and economic value. This study analyzed chloroplast genomes and codon usage in 15 Diospyros species to understand their evolution and genetic diversity. The results showed low genetic variation in the IR regions and high conservation at boundary areas, with three main evolutionary groups identified. Codon usage analysis revealed a preference for A or U at the third position and weak codon bias overall. Natural selection, rather than mutation pressure, was found to be the main factor shaping codon usage patterns. These findings provide a robust foundation for future investigations into molecular evolution and phylogenetic relationships in the genus Diospyros. Diospyros, the most species-rich woody plant genus in Ebenaceae, has attracted significant academic interest due to its ecological and economic importance. This…
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Taxonomy
TopicsRNA and protein synthesis mechanisms · Genomics and Phylogenetic Studies · Photosynthetic Processes and Mechanisms
