Structural Characterization of Trivalvaria costata Chloroplast Genome and Molecular Evolution of rps12 Gene in Magnoliids

Abstract

Chloroplasts (cp) are important organelles in plant cells that have been widely used in phylogenetic, molecular evolution, and gene expression studies due to their conserved molecular structure. In this study, we obtained the complete cp genome of Trivalvaria costata (Annonaceae) and analyzed its structural characteristics. Additionally, we analyzed the rps12 gene in the phylogenetic framework of magnoliids. The T. costata cp genome comprises 162,002 bp and contains 132 genes. We detected 48 simple sequence repeats (SSRs) and identified 29 high-frequency codons as well as 8 optimal codons. Our multiple analyses show that codon usage bias is mainly influenced by natural selection. For the first time, we found the rps12 gene to be entirely located in the IR region (in Annona). In groups with exon 1 located in the single-copy (SC) region and exons 2–3 located in the inverted repeat (IR) region, the transition rate and synonymous substitution rate of exon 1 were higher than those of exons 2–3. Adaptive evolution identified a positive selection site (116) located in the 310-helix region, suggesting that the rps12 gene may undergo adaptive changes during the evolutionary history of magnoliids. This study enhances our knowledge regarding genetic information on T. costata and provides support for reduced substitution rates in the IR region.