3). The

analyses of the blots showed that among these genes it was possible to observe the expression Cyclosporin A in vitro of most in planta, which denotes their importance in interaction or adaptation events during the infection process. However, no pthA mutant was identified, despite Xcc having four distinct copies of pthA, two in each plasmid. It could be that mutation of just one pthA gene does not affect the establishment of Xcc in either pathogeniCity or symptoms. Swarup and coworkers [12] have shown that mutation in the pthA gene resulted in a complete loss of virulence on citrus, but the amino acid sequence coded by pthA [13] is distinct from all four pthA copies present in Xcc 306 [4]. We used homologous recombination to disrupt each copy of Xcc pthA in order to determine the contribution of each copy to pathogeniCity and virulence. However, this process is not trivial, because

we would first have to obtain a null find more pthA mutant, ie, a mutant with all four copies of this gene mutated. Under these conditions the adaptability of the null mutant could be tested, and, using that mutant, the contribution of each copy of pthA could be evaluated. Another circumstance that may have influenced the absence of identified pthAs mutants is the probability of having all the Xcc genes mutated in our mutant library, which was only 47%, whereas empirically, it is much easier to hit the main chromosome, due to its size, than the plasmids. So, the probability of mutating a gene in the plasmid is also very small in relation to the probability of mutating a gene on the main chromosome. Two of the non-virulent mutants carry genes previously described as being necessary for pathogeniCity,

hrpB4 (XAC0410) and hrpXct (XAC1266); these two genes are part of the hrp (hypersensitive reaction and pathogeniCity) system, which is present in most Gram-negative phytopathogenic bacteria, except for Agrobacterium, and is part of the TTSS [14]. Many results indirectly suggest that virulence proteins, also called virulence effectors, are injected by the pathogen directly inside the host cells through a pilus [15]. It is presumed that the effectual proteins Resveratrol stimulate or suppress several cellular functions of the host to benefit pathogen infection [16]. In X. campestris pv. vesicatoria (Xcv), the hrp cluster is 23 kb and contains six operons, hrpA to hrpF [17]. Two regulator genes, hrpG and hrpX, located outside of the larger gene cluster, are responsible for activating the expression of hrp genes in planta and in XVM2 synthetic culture media [18, 19]. The mutant for hrpB4 in Xcv was not able to cause disease in PI3K inhibitor susceptible pepper plants or the hypersensitive reaction (HR) in pepper plants carrying the respective compatible R gene, in the presence of avr in the Xcv isolate used in the study [20]. Subsequent studies confirmed that this protein, HrpB4, was not secreted; in other words, it is a protein that acts in the bacterial cell.