Plastome diversity and evolution in mosses: Insights from structural characterization, comparative genomics, and phylogenetic analysis.

Mosses play a significant role in ecology, evolution, and the economy. They belong to the nonvascular plant kingdom and are considered the closest living relatives of the first terrestrial plants. The circular chloroplast DNA molecules (plastomes) of mosses contain all the genetic information essential for chloroplast functions and represent the source of the evolutionary history of these organisms. This study comprehensively analyzed the plastomes of 47 moss species belonging to 14 orders, focusing on their size, GC content, gene loss, gene content, synteny, and evolution. The findings revealed great differences among plastome sizes, with Takakia lepidozioides (Takakiopsida) and Funaria hygrometrica (Funariales) having the largest and smallest plastomes, respectively. Moss plastomes included 69 to 89 protein-coding genes, 8 rRNA genes, and 34 to 42 tRNA genes, resulting in the total number of genes in a plastome ranging between 115 and 138. Various genes have been lost from the plastomes of different moss species, with Atrichum angustatum lacking the highest number of genes. This study also examined plastome synteny and moss evolution using comparative genomics and repeat sequence analysis. The results demonstrated that synteny and similarity levels varied across the 47 moss examined species, with some exhibiting structure similarity and others displaying structural inversions. Maximum likelihood and Bayesian approaches were used to construct a phylogenetic tree using 36 concatenated protein-coding genes, and the results revealed that the genera Sphagnum and Takakia are sister groups to the other mosses. Additionally, it was found that Tetraphidales, Polytrichales, Buxbaumiales, and Diphysciales are closely related. This research describes the evolutionary diversity of mosses and offers guidelines for future studies in this field. The findings also highlight the need for more investigations into the factors regulating plastome size variation in these plants.