Codon usage pattern and genetic diversity in chloroplast genomes of Panicum species

Exploring the molecular identities and the genetic diversity of a plant species is crucial in figuring out the evolutionary pressure of genes as well as in molecular breeding application. Nineteen chloroplast genomes of Panicum species in the National Center for Biotechnology Information database were downloaded and analyzed. The base composition, the effective number of codons, the relative synonymous codon usage, the codon bias index and the codon adaptation index of all genes in all chloroplast genomes, as well as the correlation coefficient among them, were calculated and discussed. The correspondence analysis and the clustering characteristics among nineteen genomes base on the relative synonymous codon usage values of nineteen chloroplast genomes were calculated and analyzed. In order to figuring out the evolutionary diversity of certain genes, the codon usage pattern of forty-one typical genes were separately counted and compared. Summations of their standard deviations were considered to evaluate their genetic diversities. The results of codon usage pattern showed that all genes were obvious AU-rich ones in chloroplast genomes of Panicum species, revealing that the natural selection was the main factor that influenced their evolutionary process. The correspondence and clustering analysis among nineteen chloroplast genomes showed that the overall evolutionary differences among them were not significant. However, the analysis on the genetic diversity of tyical genes showed that the degrees of diversity are different, and that the shorter sequences are more prone to instability. These findings would improve our understanding on the evolution of chloroplast genomes of Panicum species and be useful for further study on their evolutionary phenomenon.