Abstract
Key messageRice CC-BED NLR Xa1 recognizes TAL effectors through the interaction between ERF101 and TAL effectors.The rice Xa1 gene encodes a nucleotide-binding leucine-rich repeat receptor with an N-terminal coiled coil-zinc finger BED (CC-BED) domain. Xa1 recognizes the transcription activator-like (TAL) effectors of Xanthomonas oryzae pv. oryzae (Xoo) in the nucleus, triggering a number of immune responses, including hypersensitive cell death. We previously discovered that the rice transcription factor ERF101 directly interacts with Xa1, and functions as a positive regulator of Xa1-dependent immunity. However, the involvement of ERF101 in Xa1-induced immunity remains unclear. We herein demonstrated that the expression of the CC-BED domain in rice protoplasts inhibited Xa1-induced cell death. However, the CC-BEDC165A,C168A domain which has mutations of cysteine residues conserved in the zinc-finger motifs of BED domains and is essential for forming tetrahedral coordination geometry, failed to inhibit cell death or interact with ERF101. Therefore, Xa1-induced cell death appears to depend on the interaction between the BED domain and ERF101. In addition, we generated transgenic plants overexpressing N-terminal or C-terminal FLAG-tagged ERF101. FLAG-ERF101 transgenic plants exhibited reduced levels of Xa1-mediated immunity against Xoo, even though the overexpression of ERF101-FLAG or non-tagged ERF101 enhanced immunity. This result was consistent with the CC-BED domain interacting with C-terminal tagged ERF101, but not N-terminal tagged ERF101, whereas N-terminal and C-terminal tagged ERF101 both interacted with TAL effectors. Therefore, the interaction between the BED domain and ERF101 appears to be essential for the recognition of TAL effectors by Xa1.
Published Version
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