Affiliation:
1. Beijing Key Laboratory of Growth and Developmental Regulation for Protected Vegetable Crops China Agricultural University Beijing China
2. Umeå Plant Science Centre UMEÅ Sweden
Abstract
AbstractLow temperature stress poses a significant challenge to the productivity of horticultural crops. The dynamic expression of cold‐responsive genes plays a crucial role in plant cold tolerance. While NAC transcription factors have been extensively studied in plant growth and development, their involvement in regulating plant cold tolerance remains poorly understood. In this study, we focused on the identification and characterisation of SlNAC3 as the most rapid and robust responsive gene in tomato under low temperature conditions. Manipulating SlNAC3 through overexpression or silencing resulted in reduced or enhanced cold tolerance, respectively. Surprisingly, we discovered a negative correlation between the expression of CBF and cold tolerance in the SlNAC3 transgenic lines. These findings suggest that SlNAC3 regulates tomato cold tolerance likely through a CBF‐independent pathway. Furthermore, we conducted additional investigations to identify the molecular mechanisms underlying SINAC3‐mediated cold tolerance in tomatoes. Our results revealed that SlNAC3 controls the transcription of ethylene biosynthetic genes, thereby bursting ethylene release in response to cold stress. Indeed, the silencing of these genes led to an augmentation in cold tolerance. This discovery provides valuable insights into the regulatory pathways involved in ethylene‐mediated cold tolerance in tomatoes, offering potential strategies for developing innovative approaches to enhance cold stress resilience in this economically important crop species.
Cited by
1 articles.
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