CHARACTERIZATION OF THE HRPJ AND HRPU OPERONS OF PSEUDOMONAS-SYRINGAE PV SYRINGAE PSS61 - SIMILARITY WITH COMPONENTS OF ENTERIC BACTERIA INVOLVED IN FLAGELLAR BIOGENESIS AND DEMONSTRATION OF THEIR ROLE IN HARPIN(PSS) SECRETION

The hrp/hrmA gene cluster of Pseudomonas syringae pv. syringae Pss61 has been shown to form a minimum genetic unit sufficient to enable nonpathogenic bacteria, such as Escherichia coli, to elicit the hypersensitive response associated with disease resistance. The biochemical functions of most of these genes have not been established. The nucleotide sequence of a 4.3-kb SstI-Bg/II fragment carrying hrp apparent translational units V, VI, and VII revealed one partial open reading frame (ORF) and five complete ORFs producing 35,126-, 48,866-, 17,308-, 20,482-, and 26,363-Da gene products (hrpJ3, J4, J5, U1, U2, respectively). The production of these proteins was confirmed by using T7 RNA polymerase-directed expression. The partial ORF was found to be identical to the C terminus of HrpJ2, The absence of apparent transcriptional terminators and promoters between hrpI (hrpJ2), hrpJ3, hrpJ4, and hrpJ5 together with the observation that the HrpL-dependent hrpJ promoter directs expression of hrpJ3-J5 indicates that these genes form a single operon controlled by the HrpL-dependent hrpJ promoter. A second HrpL-dependent promoter consensus sequence was also identified upstream of hrpU1 and demonstrated to function as a HrpL-dependent promoter, thus indicating that hrpU1, hrpU2, and additional downstream genes may be part of a second operon. The deduced product of hrpJ3 exhibits similarity to FliG of Salmonella typhimurium, a cytoplasmic protein that regulates flagellar rotation and biogenesis. HrpJ4 shares extensive similarity with the FliI family of ATPase-like proteins and retains the known functional domains conserved among this family of proteins. HrpJ5 has properties similar to the S. typhimurium FliJ. Neither HrpU1 nor HrpU2 exhibit significant similarity to known proteins. Secretion of Harpin(Pss) by E. coli ICIC4100 transformants carrying pHIR11::TnphoA derivatives was blocked in hrpJ4, J5, and U2 mutants. In view of the previously reported similarity of HrpJ2 to the LcrD superfamily that includes FlhA, these results predict that the gene products of the hrpJ and hrpU operons form an inner membrane complex for translocation of proteins similar to that used by the flagellar biogenesis system of S. typhimurium.