Identification, expression and miRNA targeting of auxin response factor genes related to phyllody in the witches' broom disease of jujube.

Abstract

Jujube witches' broom (JWB) disease, associated with the presence of phytoplasmas, induces huge crop losses in the woody perennial fruit tree Ziziphus jujuba. An imbalance in the phytohormone auxin is thought to be a key factor in the development of the witches' broom symptoms, and in the alteration of floral development into leafy structures, termed phyllody. The Auxin Response Factor (ARF) gene family controls auxin-responsive gene expression during plant growth and development. However, it remains unknown if the ARF genes are involved in the formation of leaf-like flowers. In the present study, sixteen jujube ARF genes were identified bioinformatically and annotated based on the Z. jujuba cv. Dongzao genome. The ZjARFs were homologous to 12 out of the 23 Arabidopsis ARFs and were distributed in 8 jujube chromosomes and 3 unmapped scaffolds. Phylogenetic analysis grouped the ZjARFs into three classes. Spatio-temporal expression analysis revealed that the ZjARF genes were differentially expressed among different tissues during normal development. The expression of seven ZjARF genes was significantly decreased from flower buds to flowering. JWB-infected jujube plants developed the typical phyllody symptoms and showed lower auxin accumulation during floral development. ZjARF1, ZjARF2, ZjARF3, ZjARF4 and ZjARF8 resulted differentially regulated after phytoplasma infection. ZjARF4 was down-regulated before and during floral development in phytoplasma-infected plants, but it was significantly up-regulated before flowering and down-regulated during flowering in the healthy plants. Target site analysis showed that miRNA167, miRNA529 and miRNA2950 could directly target ZjARF4. Together, the data showed that the auxin-controlled ARF4 gene is likely involved in the disruption of floral development in phytoplasma-infected jujube plants.