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Novel and multifaceted regulations of photoperiodic flowering by phytochrome A in soybean.

Xiaoya LinLidong DongYang TangHaiyang LiQun ChengHong LiTing ZhangLixin MaHongli XiangLinnan ChenHaiyang NanChao FangSijia LuJialong LiBaohui LiuFanjiang Kong
Published in: Proceedings of the National Academy of Sciences of the United States of America (2022)
Photoperiod is an important environmental cue. Plants can distinguish the seasons and flower at the right time through sensing the photoperiod. Soybean is a sensitive short-day crop, and the timing of flowering varies greatly at different latitudes, thus affecting yields. Soybean cultivars in high latitudes adapt to the long day by the impairment of two phytochrome genes, PHYA3 and PHYA2 , and the legume-specific flowering suppressor, E1 . However, the regulating mechanism underlying phyA and E1 in soybean remains largely unknown. Here, we classified the regulation of the E1 family by phyA2 and phyA3 at the transcriptional and posttranscriptional levels, revealing that phyA2 and phyA3 regulate E1 by directly binding to LUX proteins, the critical component of the evening complex, to regulate the stability of LUX proteins. In addition, phyA2 and phyA3 can also directly associate with E1 and its homologs to stabilize the E1 proteins. Therefore, phyA homologs control the core flowering suppressor E1 at both the transcriptional and posttranscriptional levels, to double ensure the E1 activity. Thus, our results disclose a photoperiod flowering mechanism in plants by which the phytochrome A regulates LUX and E1 activity.
Keyphrases
  • arabidopsis thaliana
  • transcription factor
  • dna methylation
  • heat stress
  • genome wide identification