Codon usage bias in chloroplast genes implicate adaptive evolution of four ginger species

Analysis of Codon Usage Bias of 30 Chloroplast Genomes in Ulva (Ulvophyceae, Chlorophyta)

BACKGROUND

Ulva is a globally distributed genus with ecological and economic significance, yet the codon usage bias of the Ulva chloroplast genome remains poorly understood.

METHODS

We assessed the Ulva chloroplast genome codon usage patterns and their drivers by analyzing 30 genomes across 16 Ulva species.

RESULTS

The nucleotide composition analysis demonstrated that Ulva chloroplast genomes are rich in A/T, and prefer to use codons that ended with A/T. The relative synonymous codon usage analysis suggested that related species have similar codon usage patterns. A total of 25 high-frequency codons and 7-14 optimal codons were identified in these chloroplast genomes. The ENC values ranged from 31.40 to 32.76, all of which are less than 35, illustrating a strong codon bias of the Ulva genus. Our comparative analyses suggested that natural selection played the main role in the formation of the codon usage bias. Furthermore, the correlation analysis indicated that an influence of the base composition and gene expression levels on the codon usage bias.

CONCLUSIONS

This study provides the first comprehensive analysis of the codon usage patterns in Ulva chloroplast genomes, improving our understanding of the genetics and evolution of these economically and ecologically important macroalgae.

Phylogeny and evolutionary dynamics of the Rubia genus based on the chloroplast genome of Rubia tibetica

Rubia tibetica, a well-known medicinal plant, holds significant medicinal value. In this study, we sequenced and assembled the complete chloroplast genome of R. tibetica and conducted comparative analyses with four other Rubia species to provide insights into genome structure, selective pressure, and phylogenetic relationships. The chloroplast genome of R. tibetica was 154,901 bp in length and exhibited a typical quadripartite circular structure. Comparative analysis revealed a highly conserved genome structure among Rubia species, with genome sizes ranging from 153,555 bp to 155,108 bp and a GC content of approximately 37%. Codon usage analysis indicated a preference for A/U-ending codons. Selective pressure analysis identified relaxed selection in genes such as rps15 and petA, suggesting species-specific adaptive strategies. Two hypervariable regions, rps16-trnQ and psaJ-rps18, were experimentally validated as potential molecular markers through PCR amplification and sequencing. However, sequencing results of the rps16-trnQ region differed from the reference chloroplast genome, requiring further investigation. Phylogenetic analysis was performed using maximum likelihood (ML) based on the complete chloroplast genome sequences of five Rubia species and confirmed the monophyly of the Rubia genus, with R. tibetica occupying a basal position. This suggesting the retention of ancestral traits and adaptation to the unique environment of the Qinghai-Tibet Plateau. Molecular dating analysis further revealed divergence times consistent with geological and climatic events in the region. These findings provide critical insights into the evolutionary dynamics of Rubia species and offer valuable resources for their classification, conservation, and medicinal application.