John F. Bol scite author profile

Enhanced ethylene production is an early response of plants to pathogen attack and has been associated with both resistance and susceptibility to disease. Tobacco plants were transformed with the mutant etr1-1 gene from Arabidopsis, conferring dominant ethylene insensitivity. Besides lacking known ethylene responses, these transformants (Tetr) did not slow growth when contacting neighboring plants, hardly expressed defense-related basic pathogenesisrelated proteins, and developed spontaneous stem browning. Whereas hypersensitive resistance to tobacco mosaic virus was unimpaired, Tetr plants had lost nonhost resistance against normally nonpathogenic soil-borne fungi.

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A Novel WRKY Transcription Factor Is Required for Induction of PR-1a Gene Expression by Salicylic Acid and Bacterial Elicitors

Verk

et al. 2008

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PR-1a is a salicylic acid-inducible defense gene of tobacco (Nicotiana tabacum). One-hybrid screens identified a novel tobacco WRKY transcription factor (NtWRKY12) with specific binding sites in the PR-1a promoter at positions 2564 (box WK 1 ) and 2859 (box WK 2 ). NtWRKY12 belongs to the class of transcription factors in which the WRKY sequence is followed by a GKK rather than a GQK sequence. The binding sequence of NtWRKY12 (WK box TTTTCCAC) deviated significantly from the consensus sequence (W box TTGAC[C/T]) shown to be recognized by WRKY factors with the GQK sequence. Mutation of the GKK sequence in NtWRKY12 into GQK or GEK abolished binding to the WK box. The WK 1 box is in close proximity to binding sites in the PR-1a promoter for transcription factors TGA1a (as-1 box) and Myb1 (MBSII box). Expression studies with PR-1a promoterTb-glucuronidase (GUS) genes in stably and transiently transformed tobacco indicated that NtWRKY12 and TGA1a act synergistically in PR-1a expression induced by salicylic acid and bacterial elicitors. Cotransfection of Arabidopsis thaliana protoplasts with 35STNtWRKY12 and PR-1aTGUS promoter fusions showed that overexpression of NtWRKY12 resulted in a strong increase in GUS expression, which required functional WK boxes in the PR-1a promoter.

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Differential induction of acquired resistance and PR gene expression in tobacco by virus infection, ethephon treatment, UV light and wounding

1991

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Genes for acidic, extracellular and basic, intracellular pathogenesis-related (PR) proteins of tobacco were studied for their response to tobacco mosaic virus (TMV) infection, ethephon treatment, wounding and UV light. The genes encoding the acidic PR proteins (PR-1, PR-2, PR-3, PR-4 and PR-5) responded similarly to the different forms of stress. They appeared to be highly inducible by TMV, moderately inducible by ethephon treatment and UV light and not inducible by wounding. The genes for the basic counterparts of PR-1, PR-2, PR-3 and PR-5 also displayed a common stress response. However, this response was different from that of the acidic PR proteins. Here, the highest induction was obtained upon ethephon treatment, while the other stress conditions resulted in somewhat lower levels of expression. Most genes for acidic PR proteins are systemically induced in the uninfected upper leaves of TMV-infected plants, whereas the genes encoding the basic PR proteins are not. Increased levels of resistance to TMV, comparable to resistance obtained by pre-infection with the virus, were found in UV-irradiated leaves but not in wounded or ethephon-treated leaves. This indicates that the basic PR proteins are not involved in resistance to TMV infection. Tobacco phenylalanine ammonia-lyase genes were not inducible by the various stress conditions. The implications of these findings in relation to the phenomenon of acquired resistance are discussed.

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John F. Bol

Plant Pathogenesis-Related Proteins Induced by Virus Infection

Ethylene-insensitive tobacco lacks nonhost resistance against soil-borne fungi

A Novel WRKY Transcription Factor Is Required for Induction of PR-1a Gene Expression by Salicylic Acid and Bacterial Elicitors

Differential induction of acquired resistance and PR gene expression in tobacco by virus infection, ethephon treatment, UV light and wounding

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