Overexpression of the Tobacco Tsi1 Gene Encoding an EREBP/AP2-Type Transcription Factor Enhances Resistance against Pathogen Attack and Osmotic Stress in Tobacco

doi:10.1105/tpc.13.5.1035

Overexpression of the Tobacco Tsi1 Gene Encoding an EREBP/AP2–Type Transcription Factor Enhances Resistance against Pathogen Attack and Osmotic Stress in Tobacco

Jeong Mee Park, Chang-Jin Park, Suk-Bae Lee, Byung-Kook Ham, Ryoung Shin, and Kyung-Hee Paek
Graduate School of Biotechnology, Korea University, Anam-dong 5-1, Sungbuk-ku, Seoul 136-701, Republic of Korea

Correspondence to: Kyung-Hee Paek, khpaek95{at}mail.korea.ac.kr (E-mail), 82-2-928-1274 (fax)

Using mRNA differential display analysis, we isolated a salt-inducedtranscript that showed a significant sequence homology withan EREBP/AP2 DNA binding motif from oilseed rape plants. Withthis cDNA fragment as a probe, cDNA clone Tsi1 (for Tobaccostress-induced gene1) was isolated from a tobacco cDNA library.RNA gel blot analysis indicated that transcripts homologouswith Tsi1 were induced not only in NaCl-treated leaves but alsoin leaves treated with ethephon or salicylic acid. Transientexpression analysis using a Tsi1::smGFP fusion gene in BY-2cells indicated that the Tsi1 protein was targeted to the nucleus.Fusion protein of Tsi1 with GAL4 DNA binding domain stronglyactivated transcription in yeast, and the transactivating activitywas localized to the 13 C-terminal amino acids of Tsi1. Electrophoreticmobility shift assays revealed that Tsi1 could bind specificallyto the GCC and the DRE/CRT sequences, although the binding activityto the former was stronger than that to the latter. Furthermore,Agrobacterium-mediated transient expression and transgenic plantsexpressing Tsi1 demonstrated that overexpression of the Tsi1gene induced expression of several pathogenesis-related genesunder normal conditions, resulting in improved tolerance tosalt and pathogens. These results suggest that Tsi1 might beinvolved as a positive trans-acting factor in two separate signaltransduction pathways under abiotic and biotic stress.

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