TY - JOUR
T1 - Molecular properties of the Xanthomonas AvrRxv effector and global transcriptional changes determined by its expression in resistant tomato plants
AU - Bonshtien, Arale
AU - Lev, Atar
AU - Gibly, Avi
AU - Debbie, Paul
AU - Avni, Adi
AU - Sessa, Guido
PY - 2005/4
Y1 - 2005/4
N2 - The Xanthomonas campestris pv. vesicatoria avirulence gene avrRxv specifies resistance on the tomato line Hawaii 7998 by interacting with three nondominant plant resistance genes. AvrRxv molecular properties that impinge on its avirulence activity were characterized and transcriptional changes caused by AvrRxv expression in resistant tomato plants were extensively examined. AvrRxv localized predominantly to the cytoplasm and possibly in association with plasma and nuclear membranes in both resistant and susceptible tomato plants. The AvrRxv cysteine protease catalytic core was found to be essential for host recognition, because introduction of mutations in this domain affected the ability of AvrRxv to elicit a hypersensitive response and the inhibition of bacterial growth in resistant plants. In addition, expression profiles were analyzed for approximately 8,600 tomato genes in resistant plants challenged with X. campestris pv. vesicatoria strains expressing wild-type AvrRxv or a catalytic core AvrRxv mutant. In all, 420 genes were identified as differentially modulated by the expression of a functional AvrRxv, including over 15 functional classes of proteins and a large number of transcription factors and signaling components. Findings of this study allow the development of new hypotheses about the molecular basis of recognition between AvrRxv and the corresponding resistance proteins, and set the stage for the dissection of signaling and cellular responses triggered in tomato plants by this avirulence factor.
AB - The Xanthomonas campestris pv. vesicatoria avirulence gene avrRxv specifies resistance on the tomato line Hawaii 7998 by interacting with three nondominant plant resistance genes. AvrRxv molecular properties that impinge on its avirulence activity were characterized and transcriptional changes caused by AvrRxv expression in resistant tomato plants were extensively examined. AvrRxv localized predominantly to the cytoplasm and possibly in association with plasma and nuclear membranes in both resistant and susceptible tomato plants. The AvrRxv cysteine protease catalytic core was found to be essential for host recognition, because introduction of mutations in this domain affected the ability of AvrRxv to elicit a hypersensitive response and the inhibition of bacterial growth in resistant plants. In addition, expression profiles were analyzed for approximately 8,600 tomato genes in resistant plants challenged with X. campestris pv. vesicatoria strains expressing wild-type AvrRxv or a catalytic core AvrRxv mutant. In all, 420 genes were identified as differentially modulated by the expression of a functional AvrRxv, including over 15 functional classes of proteins and a large number of transcription factors and signaling components. Findings of this study allow the development of new hypotheses about the molecular basis of recognition between AvrRxv and the corresponding resistance proteins, and set the stage for the dissection of signaling and cellular responses triggered in tomato plants by this avirulence factor.
KW - Plant disease resistance
KW - Type III effectors
UR - http://www.scopus.com/inward/record.url?scp=15244340262&partnerID=8YFLogxK
U2 - 10.1094/mpmi-18-0300
DO - 10.1094/mpmi-18-0300
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C2 - 15828682
AN - SCOPUS:15244340262
SN - 0894-0282
VL - 18
SP - 300
EP - 310
JO - Molecular Plant-Microbe Interactions
JF - Molecular Plant-Microbe Interactions
IS - 4
ER -