Plants rendered herbicide-susceptible by cauliflower mosaic virus−elicited suppression of a 35S promoter-regulated transgene
Nadia S. Al-Kaff, Maria M. Kreike, Simon N. Covey, Robert Pitcher, Anthony M. Page
& Philip J. Dale
John Innes Centre, Norwich Research Park, Colney, Norwich NR4 7UH, UK.
Correspondence should be addressed to Nadia S. Al-Kaff alkaff@bbsrc.ac.uk35S promoteroilseed rapetransgene expressionCaMVherbicide tolerance gene
Crop plants genetically modified for herbicide tolerance were some of the first to be released into the environment. Frequently, the cauliflower mosaic virus (CaMV) 35S promoter is used to drive expression of the herbicide tolerance transgene. We analyzed the response to CaMV infection of a transgenic oilseed rape line containing the bialaphos tolerance gene (BAR) from Streptomyces hygroscopicus, regulated by the 35S promoter. Oilseed rape is susceptible to CaMV, but plants recover from infection. CaMV infection altered the expression of the herbicide tolerance gene such that plants became susceptible to the herbicide. The effect on transgene expression differed in infections with viral pathogenic variants typical of those found in natural situations worldwide. Susceptibility to the herbicide was most likely a result of transcriptional gene silencing of the transgene. Our results show that transgene phenotypes can be modified by pathogen invasion.
