Differentially Expressed Genes Related to Flowering Transition between Once- and Continuous-Flowering Roses

Roses are the most important cut flower crops and widely used woody ornamental plants in gardens throughout the world, and they are model plants for studying the continuous-flowering trait of woody plants. To analyze the molecular regulation mechanism of continuous flowering, comparative transcriptome data of once- and continuous-flowering roses in our previous study were used to conduct weighted gene co-expression network analysis (WGCNA) to obtain the candidate genes related to flowering transitions. The expression patterns of candidate genes at different developmental stages between Rosa chinensis Old Blush (continuous-flowering cultivar) and R. Huan Die (once-flowering cultivar) were investigated, and the relationship of the key gene with the endogenous hormone was analyzed. The results showed that the expression trends of VIN3-LIKE 1 (VIL1), FRIGIDA- LIKE 3 (FRI3), APETALA 2- LIKE (AP2-like) and CONSTANS-LIKE 2 (CO-like 2) genes were significantly different between Old Blush and Huan Die, and the expression trends of SUPPRESSOR OF OVEREXPRESSION OF CONSTANS1 (SOC1) and CO-like 2 were consistent in the flowering transition of Old Blush under different environments. The changes in cytokinin and gibberellic acid (GA(3)) content were different in the two rose cultivars. The overall change trend of the abscisic acid and GA(3) in the flowering transition of Old Blush under different environments was consistent. The promoter sequence of CO-like 2 contained a P-box element associated with gibberellin response, as well as binding sites for transcription factors. In a word, we found CO-like 2 associated with continuous flowering and some factors that may synergistically regulate continuous flowering. The results provided a reference for elucidating the molecular regulatory mechanisms of continuous-flowering traits in roses.

Automated summary

This study analyzed the molecular regulation mechanism of continuous flowering in roses using comparative transcriptome data. Candidate genes related to flowering transitions were identified, and the relationship between key genes and endogenous hormones was investigated. The results provided insights into the molecular regulatory mechanisms of continuous-flowering traits in roses.