cDNA-AFLP Reveals a Striking Overlap in Race-Specific Resistance and Wound Response Gene Expression Profiles

doi:10.1105/tpc.12.6.963

Hybrigenics The Protein Interactions Experts

cDNA-AFLP Reveals a Striking Overlap in Race-Specific Resistance and Wound Response Gene Expression Profiles

Wendy E. Durrant^a, Owen Rowland^a, Pedro Piedras^a, Kim E. Hammond-Kosack^a, and Jonathan D. G. Jones^a
^a Sainsbury Laboratory, John Innes Center, Colney Lane, Norwich NR4 7UH, United Kingdom

Correspondence to: Jonathan D. G. Jones, jonathan.jones{at}bbsrc.ac.uk (E-mail), 01603-450011 (fax)

The tomato Cf-9 gene confers resistance to races of the fungalpathogen Cladosporium fulvum expressing the Avr9 gene. cDNAamplified fragment length polymorphism analysis was used todisplay transcripts whose expression is rapidly altered duringthe Avr9- and Cf-9–mediated defense response in tobaccocell cultures. Diphenyleneiodonium was used to abolish the productionof active oxygen species during gene induction. Of 30,000 fragmentsinspected, 290 showed altered abundance, of which 263 were inducedindependently of active oxygen species. cDNA clones were obtainedfor 13 ACRE (for Avr9/Cf-9 rapidly elicited) genes. ACRE geneinduction occurred in the presence of cycloheximide. Avr9 inducedACRE gene expression in leaves. Surprisingly, ACRE genes werealso rapidly but transiently induced in leaves in response toother stresses. The amino acid sequences of some ACRE proteinsare homologous to sequences of known proteins such as ethyleneresponse element binding protein transcription factors, theN resistance protein, a calcium binding protein, 13-lipoxygenase,and a RING-H2 zinc finger protein. Rapid induction of ACRE genessuggests that they play a pivotal role during plant defenseresponses.

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