Abstract
WRKY and NF-κB transcription factors, involved in innate immunity in plants and mammals, interact with the same cis-sequence. Novel microbe-associated molecular pattern (MAMP)-responsive cis-sequences, designated type II WT-boxes, are required for flg22-responsive gene expression in Arabidopsis thaliana protoplasts. While type I WT-boxes like TGACTTTT and CGACTTTT interact with WRKY transcription factors (TFs), the question remained which TFs bind to the type II WT-boxes GGACTTTC, GGACTTTT, and GGACTTTG. Surprisingly, a bioinformatic analysis predicts mouse (Mus musculus) NF-κB p65 as a TF interacting with type II WT-boxes. NF-κB p65, like WRKY factors in plants, plays a role in innate immunity in mammals. Therefore, the interaction of NF-κB p65 with type II WT-boxes was tested experimentally. NF-κB p65 requires the WT-boxes GGACTTTC, GGACTTTT, and GGACTTTG for activating reporter gene expression in plant cells. NF-κB p65 directly binds to WT-box containing synthetic promoters in vitro and requires the WT-box for binding. Earlier studies indicate that the sequence GGACTTTC is also required for WRKY26 mediated reporter gene activation. Here it is shown that WRKY26, like NF-κB p65, binds to the sequence GGACTTTC. Consistent with other recent studies, type II WT boxes are WRKY binding sites and the distinction between type I and type II no longer applies.
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