XU Yu-chao et al.Journal of Integrative Agriculture 2016,15(3):528-536 531 AtERF104 AtERF105 AtERF5 AtERF6 DEWAX AtERF98 67 AIESE1 -AtESE14 B3 62 AtERF92 97 ORA59 AtERF15 AtERF13 92 AtERF2 AtERF1 96 RRTF1 BrcERF-B3 ABR1 AtRAP2.6 B4 AtRAP2.6L 81 AtRAP2.2 61 AtRAP2.12 AtERF71 B2 56 AtERF73 AtRAP2.3 AtERF10 61 AtESR1 AtESR2 99 LEP -PUCHI 16 AtERF7 B1 AtERF3 AtERF12 AtERF11 AtERF9 AtERF8 AtERF4 50 AtCRF3 AtCRF4 AtCRF2 AtCRF1 B5 AtCRF7 76 99 AtCRF8 AtCRF78 14 AtRAP2.11 AtSHINE1 84 AtESE3 AtSHINE3 AtCRF9 B6 94 AtCRF12 76 51 AtCRF10 AtCRF11 Fig.3 The phylogenetic analysis of BrcERF-B3 with each subgroup of ERF superfamily transcription factors from A.thaliana.The phylogenetic tree was produced with the neighbor-joining method by the MEGA 5 software.XU Yu-chao et al. Journal of Integrative Agriculture 2016, 15(3): 528–536 531 Fig. 3 The phylogenetic analysis of BrcERF-B3 with each subgroup of ERF superfamily transcription factors from A. thaliana. The phylogenetic tree was produced with the neighbor-joining method by the MEGA 5 software