Abstract
Jasmonate (JA) zinc-finger expressed in inflorescence meristem (ZIM)-domain (JAZ) proteins are key regulators of the JA response in plants. Transcriptome profiling of tobacco BY-2 cells was used to identify 17 members of the NtJAZ family, which were divided into 12 distinct groups based on their predicted amino acid sequences and conserved domains. Transcript levels of eight of the NtJAZ groups increased rapidly upon JA treatment, whereas the remaining members did not show a significant response. The majority of JA-induced NtJAZs formed homo- and heteromers and interacted with NtMYC2a (but not NtERF189) in yeast two-hybrid assays. NtJAZ1, NtJAZ3b, NtJAZ7 and NtJAZ10 were localised in the nucleus and degraded rapidly via the 26S proteasome pathway following the treatment of BY-2 with MeJA. RNAi-induced silencing of NtJAZ1, NtJAZ3, NtJAZ7a and NtJAZ10 greatly reduced the levels of NtPMT transcripts and specifically decreased the nicotine content in the four RNAi transgenic BY-2 lines. The levels of transcripts encoding other nicotine biosynthesis enzymes, NtERF189 and NtMYC2a, and other NtJAZs exhibited different expression patterns in RNAi lines with or without MeJA treatment. Our results indicate that cross-talk occurs among different NtJAZs and forms a complex transcription regulatory scheme for JA-induced nicotine biosynthesis in tobacco.
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