Expression analysis of the BpARF genes in Betula platyphylla under drought stress.

Auxin response factors (ARFs) play an important role in modulating plant growth and development processes by regulating the expression of auxin-responsive genes. However, the modes of action of ARFs in birch (Betula platyphylla) remain largely unknown. In this study, fifteen ARF genes were identified in the birch (B. platyphylla) genome. Bioinformatics analysis revealed that the 15 BpARF genes were unevenly distributed on 7 chromosomes. The 15 BpARF proteins clustered into 6 groups, and all of them contained ARF and B3 motifs. The cis-acting elements present within the promoters of the BpARF genes were mostly related to stress resistance. Expression analysis revealed that most of the BpARF genes were significantly upregulated or downregulated in response to drought treatment in at least one organ. In particular, the expression of BpARF1 was significantly induced by drought stress. The function of BpARF1 was further studied via a transient transformation system. Under drought stress conditions, compared with vector control plants, BpARF1 RNA interference (RNAi)-inhibited plants presented reduced reactive oxygen species (ROS) accumulation, enhanced peroxide (POD) and superoxide dismutase (SOD) activities, increased ascorbic acid (AsA) and proline contents, and reduced electrolyte leakage and water loss rates. Conversely, BpARF1 overexpression plants displayed the opposite physiological changes. These results suggest that the silencing of BpARF1 can improve the drought tolerance of B. platyphylla.