Study of the proteins HrpF and AvrXacE2 in pathogenicity of Xanthomonas axonopodis pv. citri

The bacterium Xanthomonas axonopodis pv. citri (Xac) is the causative agent of the citrus canker disease, which leads to economic losses due the contamination and erradication of citrus plants. The complete sequencing of its genome identified a number of genes supposedly involved with pathogenicity. Genes that code for hipersensitivity response (hrp) and avirulence (avr), in general, are related to the pathogenicity of Xanthomonas, however, only a few functional studies of these genes in Xac have been made. Here we report findings based on genomics and proteomics methods for Xac. Mutant strains of Xac for genes hrpF and avrXacE2 and in vivo assays demonstrated that hrpF is strongly involved in the pathogenicity of Xac and is essential for the manifestation of the primary symptoms of the citrus canker. On the other hand, the lack of avrXacE2 expression did not result in modifications in the capacity of Xac to elicite the symptoms of canker, therefore, this gene does not seem to be essential for the pathogenicity of the bacterium. The genes hrpF and avrXacE2 were cloned in expression vectors and tests of induction of the expression of these proteins in heterologous systems were carried out. The protein AvrXacE2 was expressed, purified and tested on interaction assays with cytoplasmic proteins of the mutant of Xac for the gene avrXacE2. The tests of interactions had not confirmed the identification of proteins with specific affinity for the recombinant protein AvrXacE2. The protein HrpF was not overexpressed in heterologous system. In the comparative proteome of the wild versus mutant strains for hrpF, modifications in the cytoplasmic protein expression and "pericellular" expression levels were detected. We postulate that, besides acting as a translocator of molecules through T3SS, HrpF may influence stress-related cellular responses. Thus, it is an opportune time to highlight the new and different ways in which HrpF serves Xac function. Moreover, we can assume that the techniques of functional genomics and proteomics analyses will clarify the mechanisms of pathogenicity used by Xac to cause citrus canker and, thus, enable the search for additional information to control the disease (AU)