Late-bolting transgenic Chinese cabbage obtained by RNA interference technique.

Abstract

LEAFY (LFY) gene plays an important role in determining plant flowering mainly by controlling the timing of phase transition. Constitutive under-expression of LFY in Arabidopsis resulted in the formation of a late-flowering and highly branching phenotype. In this paper, an RNAi approach was used in down-regulated LFY gene expression to delay Chinese cabbage (Brassica rapa L. ssp. pekinensis) bolting and flowering. The results show that transgenic plant has a later transition to the reproductive phase, and the transgenic plants have more branches, more leaves, but a lower height. Results of RQ-RT-PCR analysis show that LFY gene expression was greatly reduced in transgenic plants. These results suggest that inhibiting LFY gene expression by RNA interference can delay bolting in a cold-sensitive long-day (LD) condition. Late flowering of Chinese cabbage can be used as a good genetic resource for the breeding late-bolting Chinese cabbage.