Identification and functional analysis of BABY BOOM genes from Rosa canina

Abstract

BABY BOOM (BBM), initially identified in Brassica napus, can enhance the shoot regeneration capacity in tissue culture and is involved in the conversion from the vegetative to embryogenic state. This study aimed to isolate BBM orthologue genes from Rosa canina and analyse their functions. Two full-length cDNAs, designated RcBBM1 and RcBBM2, were isolated from R. canina by the rapid amplification of cDNA ends (RACE). The predicted amino acid sequences of the two RcBBMs contained the bbm-1 motif and the motifs typically conserved in the eudicotANT (euANT) lineage. Phylogenetic tree analysis showed that the RcBBMs were most closely related to the BBM orthologue genes identified in Glycine max and Medicago truncatula. The transcripts of the RcBBMs were detected in young roots, calluses, and protocorm-like bodies (PLBs), whereas they were undetectable in stems, leaves, and flowers. RcBBM1-GFP and RcBBM2-GFP fusion proteins were both localized in the nucleus. 35S::RcBBM1 and 35S::RcBBM2 transgenic Arabidopsis thaliana lines exhibited enhanced shoot regeneration capacity in tissue culture, but did not undergo spontaneous somatic embryogenesis. The results suggest that RcBBMs may be candidate genes for improving the shoot regeneration efficiency of R. canina.