A natural antisense RNA improves chrysanthemum cold tolerance by regulating the transcription factor DgTCP1

Abstract

Long noncoding RNAs (lncRNAs) are widely involved in the regulation of plant growth and development, but their mechanism of action in response to cold stress in plants remains unclear. Here, we found an lncRNA transcribed from the antisense strand of DgTCP1 (class I Teosinte branched1/Cycloidea/Proliferating [TCP] transcription factor) of chrysanthemum (Chrysanthemum morifolium Ramat.), named DglncTCP1. During the response of chrysanthemum to cold stress, overexpression of DgTCP1 improved the cold tolerance of chrysanthemum, while the DgTCP1 editing line (dgtcp1) showed decreased tolerance to cold stress. Overexpression of DglncTCP1 also increased the cold tolerance of chrysanthemum, while the DglncTCP1 amiRNA lines (DglncTCP1 amiR-18/38) also showed decreased tolerance to cold stress. Additionally, the overexpression of DglncTCP1 upregulated the expression of DgTCP1. This indicated that DglncTCP1 may play a cis-regulatory role in the regulatory process of DgTCP1 in cold tolerance. DglncTCP1 acts as a scaffold to recruit the histone modification protein DgATX (ARABIDOPSIS TRITHORAX from chrysanthemum) to DgTCP1 to enhance H3K4me3 levels, thereby activating DgTCP1 expression. Moreover, DgTCP1 can directly target DgPOD (peroxidase gene from chrysanthemum) to promote its expression and reduce reactive oxygen species accumulation, thereby improving the cold tolerance of chrysanthemum. In conclusion, these results suggest that natural antisense lncRNA plays a key role in improving the cold tolerance of chrysanthemum.