Description |
Bud dormancy is a critical developmental process for perennial plant survival, and also an important physiological phase that affects the next season’s growth of temperate trees. These process is precisely regulated by diverse endogenous genetic factors and environmental cues, however, the mechanism underlying bud dormancy is still less studied. Prunus mume is considered as an ideal crop for bud dormancy analysis for its early spring-flowering characteristics and relative small sequenced genome. Here, high-throughput sequencing of transcriptomes were performed from four representative dormancy stages, deep dormancy (DD), non-deep dormancy (NDD), less dormancy (LD) and natural flower (NF), respectively. This new transcriptomes offer comprehensive sequence and DGE profiling data for a dynamic view of transcriptomic variation during bud dormancy in P. mume. These data provided a basis for future studies of unveiling strong candidates for the control of bud dormancy. |