Abstract
Alternative oxidase (AOX) has a well-established involvement in plant growth and stress tolerance in many studies. In this study, we isolated and characterized the AOX2 from Cerasus humilis. The ChAOX2 Open Reading Frame (ORF) contains 1029 nucleotides and encodes 342 amino acid residues. The inferred amino acid sequence of ChAOX2 shared the highest sequence similarity with a homolog from Prunus yedoensis. The ChAOX2 transcripts were relatively abundant in the old leaves and significantly up-regulated by salt stress. Subcellular localization analysis showed that ChAOX2 was located in the mitochondria. We transformed ChAOX2 into wild-type Arabidopsis thaliana and found that compared with wild-type and aox mutant lines, heterotopic expression of ChAOX2 increased proline content, and peroxidase and superoxide dismutase activities, while decreasing relative conductivity and the reactive oxygen species level. Further, the ratio of alternate respiration to the total respiration in plants that overexpressed ChAOX2 was significantly higher than that in wild-type and mutant plants under salt stress. These results indicate that ChAOX2 plays a key role in salt tolerance.