The goal of this study is to understand the role of biofilm formation and quorum sensing (QS) in X. citri ssp. citri infection of citrus fruit and to prevent its infection by interfering with biofilm formation and QS. Three compounds exhibited a significant reduction in biofilm formation both on polystyrene surface and in glass tubes compared to the untreated control, where the level of biofilm formation were reduced to 50% and 60% of control, respectively. Plant test in greenhouse showed that treatment with the three compounds prior to infection could reduce biofilm formation of Xac on leaf surface, reduce the formation of canker lesions on spray-inoculated grapefruit leaves with the wild-type strain. Effects of the three compounds on Xac on detached immature citrus fruit were also tested using spray inoculation. Preliminary results showed that these small molecules affected Xac 306 infection of unwounded and wounded citrus fruits at sub-inhibitory concentrations. We have completed testing the effect of those compounds in different combinations with copper based bactericides in controlling Xac infection of grapefruit plants in the greenhouse. The sensitivity of biofilm and planktonic cells of Xac 306 to copper (copper sulfate) were evaluated by measuring the MICs. Biofilms are less susceptible to copper than planktonic cells. Effect of the selected compounds on sensitivity of Xac planktonic cells and biofilm cells to copper sulfate was also investigated. In the NB medium, planktonic cells exhibited a MIC of 0.50 mM CuSO4 without biofilm inhibitor. In the presence biofilm inhibitors at sub-MIC concentrations , the MICs of CuSO4 against Xac 306 planktonic cells were decreased to 0.25 mM. In a in vitro biofilm system test, the combined use of copper sulfate and the compounds individual or both resulted in significantly increased killing compared to killing by copper sulfate alone. The results have been published by Phytopathology in a manuscript entitled: Foliar application of biofilm formation-inhibiting compounds enhances control of citrus canker caused by Xanthomonas citri subsp. citri. One patent is filed based on the results. We also identified multiple new biofilm inhibitors. The effect of those biofilm inhibitors to control citrus canker is being investigated. We tested the survival of both biofilm deficient and QS mutants on fruit surface. Effects of biofilm formation inhibitors on Xac infection on detached immature citrus fruit were tested using spray inoculation. The inhibitors affected the infection of Xac on both unwounded and wounded citrus fruits. We continue characterizing how quorum sensing and biofilm formation contribute to Xac infection of citrus fruit. Multiple virulence genes involved in quorum sensing and biofilm formation are being investigated. The involvement of ColR, RpfF, and three more genes involved in biofilm formation or quorum sensing is studied in details. We compared the gene expression of Xac RfpF mutant and wild type in planta. Two manuscripts are under preparation. The field trial (two different sites) is ongoing to test the effect of the identified biofilm inhibitors to control citrus canker. In the MidFlorida trial, the data collected from the 1st year experiment showed that the application of biofilm inhibitors and quorum sensing inhibitors, individually or in combination, reduced canker disease incidence on leaves and fruit, with lower values of the standard area under the disease progress stairs (sAUDPS) and lower percent of diseased fruit and fruit drop. For the 2nd year experiment, the canker incidence in the MidFlorida grove before treatment application was surveyed and recorded on March 19, 2015.