HISTONE DEACETYLASE 6 interaction with ABSCISIC ACID-INSENSITIVE 5 decreases apple drought tolerance.

Understanding the molecular regulation of plant response to drought is the basis of drought-resistance improvement through molecular strategies. Here, we characterized apple (Malus × domestica) histone deacetylase 6 (MdHDA6), which negatively regulates apple drought tolerance by catalyzing deacetylation on histones associated with drought-responsive genes. Transgenic apple plants over-expressing MdHDA6 were less drought-tolerant, while those with down-regulated MdHDA6 expression were more drought-resistant than nontransgenic apple plants. Transcriptomic and histone 3 acetylation (H3ac) Chromatin immunoprecipitation-seq analyses indicated that MdHDA6 could facilitate histone deacetylation on the drought-responsive genes, repressing gene expression. Moreover, MdHDA6 interacted with the abscisic acid (ABA) signaling transcriptional factor, ABSCISIC ACID-INSENSITIVE 5 (MdABI5), forming the MdHDA6-MdABI5 complex. Interestingly, MdHDA6 facilitated histone deacetylation on the drought-responsive genes regulated by MdABI5, resulting in gene repression. Furthermore, a dual-Luc experiment showed that MdHDA6 could repress the regulation of a drought-responsive gene, RESPONSIVE TO DESICCATION 29A (MdRD29A) activated by MdABI5. On the one hand, MdHDA6 can facilitate histone deacetylation and gene repression on the positive drought-responsive genes to negatively regulate drought tolerance in apple. On the other hand, MdHDA6 directly interacts with MdABI5 and represses the expression of genes downstream of MdABI5 via histone deacetylation around these genes to reduce drought tolerance. Our study uncovers a different drought response regulatory mechanism in apple based on the MdHDA6-MdABI5 complex function and provides the molecular basis for drought-resistance improvement in apple.

Histone deacetylase MdHDA6 is an antagonist in regulation of transcription factor MdTCP15 to promote cold tolerance in apple.

Understanding the molecular regulation of plant cold response is the basis for cold resistance germplasm improvement. Here, we revealed that the apple histone deacetylase MdHDA6 can perform histone deacetylation on cold-negative regulator genes and repress their expression, leading to the positive regulation of cold tolerance in apples. Moreover, MdHDA6 directly interacts with the transcription factor MdTCP15. Phenotypic analysis of MdTCP15 transgenic apple lines and wild types reveals that MdTCP15 negatively regulates cold tolerance in apples. Furthermore, we found that MdHDA6 can facilitate histone deacetylation of MdTCP15 and repress the expression of MdTCP15, which positively contributes to cold tolerance in apples. Additionally, the transcription factor MdTCP15 can directly bind to the promoter of the cold-negative regulator gene MdABI1 and activate its expression, and it can also directly bind to the promoter of the cold-positive regulator gene MdCOR47 and repress its expression. However, the co-expression of MdHDA6 and MdTCP15 can inhibit MdTCP15-induced activation of MdABI1 and repression of MdCOR47, suggesting that MdHDA6 suppresses the transcriptional regulation of MdTCP15 on its downstream genes. Our results demonstrate that histone deacetylase MdHDA6 plays an antagonistic role in the regulation of MdTCP15-induced transcriptional activation or repression to positively regulate cold tolerance in apples, revealing a new regulatory mechanism of plant cold response.