期刊
PLANT JOURNAL
卷 106, 期 2, 页码 379-393出版社
WILEY
DOI: 10.1111/tpj.15170
关键词
ethylene; cold tolerance; MdERF1B; MdCIbHLH1; low temperature
资金
- Special Fund for Agro-Scientific Research in the Public Interest [201303093]
- National Natural Science Foundation of China [32072553]
- National Key Research and Development Project [2016YFC0501505]
- Edanz Group China
Ethylene positively modulates apple responses to cold stress by inducing the expression of MdERF1B, which enhances the cold tolerance of apple seedlings and Arabidopsis thaliana seedlings through upregulating the expression of cold-responsive genes. MdERF1B interacts with MdCIbHLH1 to regulate ethylene production and integrate the cold and ethylene signaling pathways in apple.
Cold stress has always been a major abiotic factor affecting the yield and quality of temperate fruit crops. Ethylene plays a critical regulatory role in the cold stress response, but the underlying molecular mechanisms remain elusive. Here, we revealed that ethylene positively modulates apple responses to cold stress. Treatment with 1-aminocyclopropane-1-carboxylate (an ethylene precursor) and aminoethoxyvinylglycine (an ethylene biosynthesis inhibitor) respectively increased and decreased the cold tolerance of apple seedlings. Consistent with the positive effects of ethylene on cold stress responses, a low-temperature treatment rapidly induced ethylene release and the expression of MdERF1B, which encodes an ethylene signaling activator, in apple seedlings. Overexpression of MdERF1B significantly increased the cold tolerance of apple plant materials (seedlings and calli) and Arabidopsis thaliana seedlings. A quantitative real-time PCR analysis indicated that MdERF1B upregulates the expression of the cold-responsive gene MdCBF1 in apple seedlings. Moreover, MdCIbHLH1, which functions upstream of CBF-dependent pathways, enhanced the binding of MdERF1B to target gene promoters as well as the consequent transcriptional activation. The stability of MdERF1B-MdCIbHLH1 was affected by cold stress and ethylene. Furthermore, MdERF1B interacted with the promoters of two genes critical for ethylene biosynthesis, MdACO1 and MdERF3. The resulting upregulated expression of these genes promoted ethylene production. However, the downregulated MdCIbHLH1 expression in MdERF1B-overexpressing apple calli significantly inhibited ethylene production. These findings imply that MdERF1B-MdCIbHLH1 is a potential regulatory module that integrates the cold and ethylene signaling pathways in apple.
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