Genome-wide identification of GRF gene family and their contribution to abiotic stress response in pitaya (Hylocereus polyrhizus).

Growth-regulating factors (GRFs) are plant-specific transcription factors identified in many land plants. Recently, their indispensable roles in stress response are highlighted. In present work, 11 HpGRFs were cloned in pitaya. Segmental duplication is considered essential for the expansion of HpGRFs. A phylogenetic tree suggested that GRFs could be divided into eight categories, among which G-I was a Caryophyllales-specific one. The categorization was further evidenced by differences in the gene structure, collinearity, protein domain of HpGRFs. Five miR396 hairpins giving rise to two types of matured miR396s were identified in pitaya via sRNA-Seq in combination with bioinformatic analysis. Parallel analysis of RNA ends proved that HpGRFs except HpGRF5 were degraded by miR396-directed cleavages at the regions which code the conserved WRC motifs of HpGRFs. Multiple cis-regulatory elements were discovered in the promoters of HpGRFs. Among the elements, most are involved in stress and phytohormone response as well as plant growth, indicating a crosstalk between them. Expression analysis showed the responsive patterns of the miR396-GRF module under abiotic stresses. To conclude, our work systematically identified the miR396-targeted HpGRFs in pitaya and confirmed their involvement in stress response, providing novel insights into the comprehensive understanding of the stress resistance of pitaya.