The genus Actinidia, also called kiwifruit, is characterized with abundant balanced nutritional metabolites, including exceptionally high vitamin C content. However, the traditional classification could not fully reflect the actual Actinidia species' relationships, which need further revision through more accurate approaches. Compared to the nuclear genome, the chloroplast genome has simple heredity characteristics, conserved genome structure and small size, suitable for deciphering complicated species' phylogenetic relationships. Here, the genome-wide comprehensive comparative analyses were performed over 29 independent chloroplast genomes' sequences derived from 25 Actinidia taxa. The average genome size is 156,673.38 bp, with an average 37.20% GC content. The long repeat sequences rather than SSRs (simple sequence repeats) in Actinidia were revealed to be the causal agent leading to the chloroplast genome size expansion. The clpP gene sequences with exon merge and intron deletion were annotated in all the 29 chloroplast genomes tested, which has been previously reported to be lost in Actinidia species. Comprehensive sequence analyses indicated the distinct variation at the clpP gene locus was Actinidiaceae-specific, emerging after the Actinidiaceae-other Ericales species divergence. Four highly divergent sequences (i.e., rps16 ~ trnQ-UUG, rps4 ~ trnT-UGU, petA ~ psbJ, and rps12 ~ psbB) evolved in the LSC (large single-copy) and SSC (small single-copy) regions embodying rps12 ~ psbB (including clpP gene and its up/downstream noncoding sequence) were identified as variation hot spots in Actinidia species. Based on either LSC region alone, combined sequences of LSC and SSC or the whole chloroplast genome sequences, three identical phylogenetic trees of the 25 Actinidia taxa with relatively improved resolution were reconstructed, consistently supporting the reticulate evolutionary lineage in Actinidia. Our findings could help to better understand the evolution characteristics of chloroplast genomes and phylogenetic relationships among Actinidia species.
Keywords: Actinidia; Chloroplast genome; Phylogenetic relationship; Sequence variation; clpP gene.
© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.