Exploiting pathogen signal molecules for control of Pierce’s Disease

PIs: Steven Lindow

• Final report submitted on Nov. 28, 2011
• Progress report submitted on Aug. 6, 2010
• Progress report submitted on April 2, 2010
• Progress report submitted on April 2, 2010
• Progress report submitted on Aug. 27, 2009
• Progress report submitted on March 23, 2009
• Renewal report submitted on March 3, 2008

Research Papers

• A cell-cell signaling sensor is required for virulence and insect transmission of Xylella fastidiosa
  Cell-cell signaling in Xylella fastidiosa, a xylem-colonizing plant pathogenic bacterium, mediated by a fatty acid Diffusible Signaling Factor (DSF), is required to colonize insect vectors and to suppress virulence to grape. Here, we show that a hybrid two-component regulatory protein RpfC is involved in negative regulation of DSF synthesis by RpfF in X. fastidiosa. X. fastidiosa rpfC mutants hyperexpress rpfF and overproduce DSF and are deficient in virulence and movement in the xylem vessels of grape. The expression of the genes encoding the adhesins FimA, HxfA, and HxfB is much higher in rpfC mutants, which also exhibit a hyper-attachment phenotype in culture that is associated with their inability to migrate in xylem vessels and cause disease. rpfF mutants deficient in DSF production have the opposite phenotypes for all of these traits. RpfC is also involved in the regulation of other signaling components including rpfG, rpfB, a GGDEF domain protein that may be involved in intracellular signaling by modulating the levels of cyclic-di-GMP, and the virulence factors to/C and pg/A required for disease. rpfC mutants are able to colonize the mouth-parts of insect vectors and wild-type strains but are not transmitted as efficiently to new host plants, apparently because of their high levels of adhesiveness. Because of the conflicting contributions of adhesiveness and other traits to movement within plants and vectoring to new host plants, X. fastidiosa apparently coordinates these traits in a population-size-dependent fashion involving accumulation of DSF.
  Feb. 1, 2008
  
• Identification of traits of Xylella fastidiosa conferring virulence to grape and insect transmission by analysis of global gene expression using DNA microarrays
  
  July 1, 2007
  
• Living in two worlds: the plant and insect lifestyles of Xylella fastidiosa
  Diseases caused by Xylella fastidiosa have attained great importance worldwide as the pathogen and its insect vectors have been disseminated. Since this is the first plant pathogenic bacterium for which a complete genome sequence was determined, much progress has been made in understanding the process by which it spreads within the xylem vessels of susceptible plants as well as the traits that contribute to its acquisition and transmission by sharpshooter vectors. Although this pathogen shares many similarities with Xanthomonas species, such as its use of a small fatty acid signal molecule to coordinate virulence gene expression, the traits that it utilizes to cause disease and the manner in which they are regulated differ substantially from those of related plant pathogens. Its complex lifestyle as both a plant and insect colonist involves traits that are in conflict with these stages, thus apparently necessitating the use of a gene regulatory scheme that allows cells expressing different traits to co-occur in the plant
  Jan. 1, 2008
  

Funding sources:

• Funded by: CDFA PD/GWSS Board
• Budget: $351,200.00
• Start date: July 1, 2007
• Stop date: June 30, 2009
• Status: APPROVED