Temporal transcriptome profiling reveals candidate genes involved in cold acclimation of Camellia japonica (Naidong).

Cold is a common problem that limits the distribution of Camellia. Camellia japonica (Naidong) is the northernmost species of camellia in China, which is a Tertiary remnant species that can adapt to large changes in temperature. An analysis of the transcriptional response of C. japonica (Naidong) to cold is very important for the planting and distribution of camellia. In this study, the rate of H₂O₂ levels, electrolyte leakage, chlorophyll and sugar content had a higher degree of cold response during 12-72 h period, than other periods (0-12h, 72h-120h) in C. japonica (Naidong) response to cold treatment. We constructed the first full-length C. japonica (Naidong) transcriptome and identified 4544 significantly differentially expressed genes (DEGs). A weighted gene coexpression network analysis showed that carbon metabolism, lipid metabolism, and transcription factors played important roles in the resistance of C. japonica (Naidong) to cold stress, and three hub transcription factor regulatory networks were constructed. In addition, overexpressing CjRAV1 led to cold sensitivity in Arabidopsis thaliana, thus CjRAV1 likely plays a negative regulatory role during cold stress in Camellia japonica. This study deepens our understanding of the regulatory mechanism of C. japonica (Naidong) under cold stress and will benefit genetic improvement of camellia.