Isolation, functional characterization and evolutionary study of LFY1 gene in Prunus mume

The flowering transition is a qualitative change in the life cycle of higher plants and an important turning point in the transition from vegetative to reproductive growth. Despite the significant importance, the molecular regulation mechanism of the flowering transition of mei (Prunus mume) remains poorly defined. In this study, RT-PCR was used to clone a LFY (LEAFY)-like gene in P. mume ‘Changrui Lve’ and functional characterisation of the gene was carried out. The gene showed high homology to the homologous genes of other woody plants, suggesting that PmLFY-like gene exhibits relatively high conservation as flowering-related genes. Expression of PmLFY1 gene in different organs by real-time quantitative PCR showed that this gene was highly expressed in the late stage rather than early stages of flower bud differentiation in P. mume, thereby exhibiting an active regulatory role in flower organ differentiation. Overexpression of LFY1 in Arabidopsis exhibited phenomenal phenotypic changes in transgenic plants, wherein PmLFY-like gene demonstrated the ability to advance the flowering and promoted the transition of inflorescence meristem to floral meristem. Thus, the PmLFY-like gene was not only involved in regulating the duration of flowering and transition to flowering but also played a role during all stages of inflorescence and flower development. These results can be used to conduct a comprehensive and systematic study of the gene functions which can lay the foundation for the molecular research of flowering in mei.