Table 1 BR response to various kinds of cold stresses
From: The physiological and molecular mechanism of brassinosteroid in response to stress: a review
Stress | Crop | Year | Remarks | References |
|---|---|---|---|---|
Low temperature | Leymus chinensis | 2016 | EBR enhance growth and development by improvement of biosynthesis of photosynthetic pigment and antioxidant enzymes activities under low temperature | [94] |
Chilling stress | Pepper | 2015 | EBR play protective role against chilling stress by increasing photosynthetic capacity and antioxidant enzymes activates | [47] |
Chilling stress | Grapevines | 2013 | Exogenous EBR antioxidant defense system, reduce oxidative damage and lipid oxidation against chilling stress | [63] |
Low temperature | Tomato | 2016 | EBR significantly increase plant growth and developmental process and reduce low temperature effect | [17] |
Chilling stress | Cucumber | 2015 | EBR involved ethylene biosynthesis to regulate plant defense system, to resist abiotic (chilling) stress | [15] |
Chilling stress | Pepper | 2016 | EBR regulate thousand genes in response to chilling stress | [2] |
Low temperature | Cucumber | 2018 | EBR play a key role to improve growth, endogenous hormones and antioxidant enzymes regulation under chilling stress | [95] |
Chilling stress | Cucumber | 2015 | EBR showed a significant resistance to chilling stress and increase antioxidant enzymes capacity | [15] |
Chilling stress | Pepper | 2015 | EBR promote photosynthetic capacity, carbohydrate metabolism and reduce stress effect | [68] |
Temperature stress | Brassica | 2013 | EBR significantly reduces the negative effect and protect cell membrane by increase proline contents and antioxidant enzyme activity to enhance stress resistance | [96] |
Freezing stress | Arabidopsis | 2016 | EBR control basic helix-loop-helix transcriptional factor that regulate cold stress resistance genes | [69] |