A transcription factor TaTCP20 regulates the expression of Ppd-D1b in common wheat

Photoperiod ( Ppd ) genes play an important role in the adaptation of wheat to the ecological environment. However, the transcriptional regulation mechanism of photoperiodic genes has remained elusive. This study isolated a full-length promoter of Ppd-D1b (2518 bp) from the common wheat genome. Several essential core cis -acting elements and numerous light-responsive cis -acting regulatory elements were identified in Ppd-D1b promoter by the in-silico analysis. Ten 5'-deleted length fragments of the Ppd-D1b promoter fused with GUS were constructed and named D0 ~ D9, then transferred them into Arabidopsis thaliana . GUS gene driven by full-length (D0) in transgenic Arabidopsis thaliana showed the same rhythm with Ppd-D1b in wheat under short-day conditions (SDs, 8-h light/16-h dark). The expression of GUS gene in D0 reached its peak at 3 h after dawn, then decreased to the lowest and remained stable. Analysis of the series of 5'-deleted fragments showed that at 3 h after dawn, GUS gene expression activity decreased significantly in D7a due to removal of CHEBS ( CCA1 HIKING EXPEDITION binding site). Moreover, yeast one-hybrid (Y1H) and dual-luciferase (dual-LUC) assays revealed that TaTCP20 could bind to the Ppd-D1b promoter to increase its transcriptional activity. This study revealed a transcription factor, TaTCP20, which activated Ppd-D1b by binding to CHEBS, provided a foundation for the theoretical research on wheat's photoperiodic response mechanism.