Genome-Wide Identification and Expression Analysis of Auxin Response Factor (ARF) Gene Family in Panax ginseng Indicates Its Possible Roles in Root Development

Abstract

Auxin-responsive factors (ARFs) are an important class of transcription factors and are an important component of auxin signaling. This study conducted a genome-wide analysis of the ARF gene family in ginseng and presented its findings. Fifty-three ARF genes specific to ginseng (PgARF) were discovered after studying the ginseng genome. The coding sequence (CDS) has a length of 1092–4098 base pairs and codes for a protein sequence of 363–1565 amino acids. Among them, PgARF32 has the least number of exons (2), and PgARF16 has the most exons (18). These genes were then distributed into six subgroups based on the results obtained from phylogenetic analysis. In each subgroup, the majority of the PgARF genes displayed comparable intron/exon structures. PgARF genes are unevenly distributed on 20 chromosomes. Most PgARFs have B3 DNA binding, Auxin_resp, and PB1 domains. The PgARF promoter region contains various functional domains such as plant hormones, light signals, and developmental functions. Segmental duplications contribute to the expansion of the ARF gene family in ginseng, and the genes have undergone purifying selection during evolution. Transcriptomic results showed that some PgARFs had different expression patterns in different parts of ginseng; most PgARFs were affected by exogenous hormones, and a few PgARFs responded to environmental stress. It is suggested that PgARF is involved in the development of ginseng by regulating hormone-mediated genes. PgARF14, PgARF42, and PgARF53 are all situated in the nucleus, and both PgARR14 and PgARF53 noticeably enhance the growth length of roots in Arabidopsis. Our findings offer a theoretical and practical foundation for exploring PgARFs’ role in the growth of ginseng roots.