Genome-wide identification of AP2/ERF transcription factor-encoding genes in California poppy (Eschscholzia californica) and their expression profiles in response to methyl jasmonate

Abstract

With respect to the biosynthesis of plant alkaloids, that of benzylisoquinoline alkaloids (BIAs) has been the most investigated at the molecular level. Previous investigations have shown that the biosynthesis of BIAs is comprehensively regulated by WRKY and bHLH transcription factors, while promoter analyses of biosynthesis enzyme-encoding genes have also implicated the involvement of members of the APETALA2/ethylene responsive factor (AP2/ERF) superfamily. To investigate the physiological roles of AP2/ERF transcription factors in BIA biosynthesis, 134 AP2/ERF genes were annotated using the draft genome sequence data of Eschscholzia californica (California poppy) together with transcriptomic data. Phylogenetic analysis revealed that these genes could be classified into 20 AP2, 5 RAV, 47 DREB, 60 ERF and 2 Soloist family members. Gene structure, conserved motif and orthologous analyses were also carried out. Gene expression profiling via RNA sequencing in response to methyl jasmonate (MeJA) indicated that approximately 20 EcAP2/ERF genes, including 10 group IX genes, were upregulated by MeJA, with an increase in the expression of the transcription factor-encoding gene EcbHLH1 and the biosynthesis enzyme-encoding genes Ec6OMT and EcCYP719A5. Further quantitative RT-PCR confirmed the MeJA responsiveness of the EcAP2/ERF genes, i.e., the increased expression of 9 group IX, 2 group X and 2 group III ERF subfamily genes. Transactivation activity of group IX EcAP2/ERFs was also confirmed by a luciferase reporter assay in conjunction with the promoters of the Ec6OMT and EcCYP719A5 genes. The physiological roles of AP2/ERF genes in BIA biosynthesis and their evolution in the regulation of alkaloid biosynthesis are discussed.