BMC Plant Biology | |
Basic leucine zipper transcription factor SlbZIP1 mediates salt and drought stress tolerance in tomato | |
Zongyun Li1  Mingku Zhu1  Jing Cai1  Ge Li1  Tingting Dong1  Xiaoqing Meng1  | |
[1] School of Life Sciences, Jiangsu Normal University; | |
关键词: Abscisic acid; Drought stress; Salt stress; SlbZIP1; Tomato; | |
DOI : 10.1186/s12870-018-1299-0 | |
来源: DOAJ |
【 摘 要 】
Abstract Background Basic region/leucine zipper (bZIP) transcription factors perform as crucial regulators in ABA-mediated stress response in plants. Nevertheless, the functions for most bZIP family members in tomato remain to be deciphered. Results Here we examined the functional characterization of SlbZIP1 under salt and drought stresses in tomato. Silencing of SlbZIP1 in tomato resulted in reduced expression of multiple ABA biosynthesis- and signal transduction-related genes in transgenic plants. In stress assays, SlbZIP1-RNAi transgenic plants exhibited reduced tolerance to salt and drought stresses compared with WT plants, as are evaluated by multiple physiological parameters associated with stress responses, such as decreased ABA, chlorophyll contents and CAT activity, and increased MDA content. In addition, RNA-seq analysis of transgenic plants revealed that the transcription levels of multiple genes encoding defense proteins related to responses to abiotic stress (e.g. endochitinase, peroxidases, and lipid transfer proteins) and biotic stress (e.g. pathogenesis-related proteins) were downregulated in SlbZIP1-RNAi plants, suggesting that SlbZIP1 plays a role in regulating the genes related to biotic and abiotic stress response. Conclusions Collectively, the data suggest that SlbZIP1 exerts an essential role in salt and drought stress tolerance through modulating an ABA-mediated pathway, and SlbZIP1 may hold potential applications in the engineering of salt- and drought-tolerant tomato cultivars.
【 授权许可】
Unknown