Abstract
Chinese cabbage is an important leaf heading vegetable crop. At the heading stage, its leaves across inner to outer show significant morphological differentiation. However, the genetic control of this complex leaf morphological differentiation remains unclear. Here, we reported the transcriptome profiling of Chinese cabbage plant at the heading stage using 24 spatially dissected tissues representing different regions of the inner to outer leaves. Genome-wide transcriptome analysis clearly separated the inner leaf tissues from the outer leaf tissues. In particular, we identified the key transition leaf by the spatial expression analysis of key genes for leaf development and sugar metabolism. We observed that the key transition leaves were the first inwardly curved ones. Surprisingly, most of the heading candidate genes identified by domestication selection analysis obviously showed a corresponding expression transition, supporting that key transition leaves are related to leafy head formation. The key transition leaves were controlled by a complex signal network, including not only internal hormones and protein kinases but also external light and other stimuli. Our findings provide new insights and the rich resource to unravel the genetic control of heading traits.
Highlights
Chinese cabbage (Brassica rapa ssp. pekinensis) is a widely cultivated vegetable crop in East Asia
The leafy head formation of Chinese cabbage is attributed to significantly spatial leaf morphological differentiation
Our results suggested that leafy head growth included a developmental transition of cell proliferation-dominant in inner leaves 1 (IL1) head leaves (HLs) to cell expansion-dominant in IL2 and outer leaves, and cell division/cell expansion of the leaf blade and petiole were coordinated by different genes
Summary
Chinese cabbage (Brassica rapa ssp. pekinensis) is a widely cultivated vegetable crop in East Asia. The leaves are round and flat with long petioles, while at the rosette stage, the inner new leaves are continually formed at the shoot apical meristem (SAM) and subsequently become large with short petioles, which start to grow more upright surrounding the axis of the enlarged, but compressed stem (Opena et al, 1998; Sun et al, 2019). When it comes to the heading stage, some rosette leaves begin to incurve and fold upward. When leafy heads are ready for harvest, the leaves are wrinkled with broad midveins and broad fleshy petioles (Sun et al, 2019), and different regions of the blade and petiole show varying degrees of curvature
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
