School of Life Sciences and Biotechnology, Korea University, Seoul, 136-701, Korea.
Mol Cells. 2012 Sep;34(3):305-13. doi: 10.1007/s10059-012-0122-2. Epub 2012 Sep 6.
The transcription factor ATAF2, one of the plant specific NAC family genes, is known as repressor of pathogenesis-related genes and responsive to the diverse defense-related hormones, pathogen infection, and wounding stress. Furthermore, it is important to consider that tryptophan-dependant IAA biosynthesis pathway can be activated by wounding and pathogen. We found that ATAF2pro::GUS reporter was induced upon indole-3-acetonitrile (IAN) treatments. And ataf2 mutant showed reduced sensitivity to IAN whereas 35S::ATAF2 plants showed hyper-sensitivity to IAN. IAN biosynthesis required nitrilase involved in the conversion of IAN to an auxin, indole-3-acetic acid (IAA). We found that the NIT2 gene was repressed in ataf2 knockout plants. Expression of both ATAF2 and NIT2 genes was induced by IAN treatment. Transgenic plants overexpressing ATAF2 showed up-regulated NIT2 expression. ATAF2 activated promoter of the NIT2 gene in Arabidopsis protoplasts. Electrophoretic mobility shift assay revealed that NIT2 promoter region from position -117 to -82 contains an ATAF2 binding site where an imperfect palindrome sequence was critical to the protein-DNA interaction. These findings indicate that ATAF2 regulates NIT2 gene expression via NIT2 promoter binding.
转录因子 ATAF2 是植物特有的 NAC 家族基因之一,已知其作为病程相关基因的抑制剂,对各种防御相关激素、病原体感染和创伤应激有响应。此外,需要考虑的是,色氨酸依赖的 IAA 生物合成途径可以被创伤和病原体激活。我们发现,ATAF2pro::GUS 报告基因在吲哚-3-乙腈 (IAN) 处理后被诱导。并且,ataf2 突变体对 IAN 的敏感性降低,而 35S::ATAF2 植株对 IAN 表现出超敏性。IAN 生物合成需要涉及将 IAN 转化为生长素吲哚-3-乙酸 (IAA) 的腈水解酶。我们发现,在 ataf2 敲除植物中,NIT2 基因受到抑制。IAN 处理诱导 ATAF2 和 NIT2 基因的表达。过表达 ATAF2 的转基因植物表现出 NIT2 表达的上调。ATAF2 在拟南芥原生质体中激活 NIT2 基因的启动子。电泳迁移率变动分析显示,NIT2 启动子区域从 -117 到 -82 位包含一个 ATAF2 结合位点,其中一个不完全的回文序列对蛋白-DNA 相互作用至关重要。这些发现表明,ATAF2 通过 NIT2 启动子结合来调节 NIT2 基因的表达。
