We transiently expressed HopF1 in bean leaves using BPMV vector-mediation. After 2 weeks of infection, new fully expanded leaves with high transcription of HopF1 (Fig. 1a) were inoculated with flg22
peptide derived from flagellin of P. syringae species to activate PTI responses. Expressed HopF1 significantly suppressed flg22-induced ROS production (Fig. 1b), flg22-induced callose deposition (Fig. 1c) and flg22-induced kinase activation (Fig. 1d). Also, expression of HopF1 contributed to the bacterial growth of a nonpathogenic strain of Psp race 6 (hrpL−) (Fig. 1e). Overall, the results indicated that HopF1 displays learn more its virulence through inhibiting bean PTI responses. HopF2 had been confirmed to target RIN4 in Arabidopsis. Therefore, whether HopF1 targeted RIN4 orthologs of bean was examined. Two RIN4 orthologs, PvRIN4a (TC20682) and PvRIN4b (TC26404), were registered in the common bean expressed sequence tags (ESTs) database (http://compbio.dfci.harvard.edu/tgi/cgi-bin/tgi/gimain.pl?gudb=bean; Chen et al., 2010). Amino acid sequence alignment showed that PvRIN4a and PvRIN4b share 41.1% and 38.2% identity, respectively, with AtRIN4, and the two bean RIN4 orthologs share 58.3% identity with each other. The two orthologs contain a highly conserved AvrB binding site (BBS) and AvrRpt2 cleavage
sites (RCS1 and RCS2) (Fig. S1) (Kim et al., 2005; Desveaux et al., 2007). The interaction between HopF1 and the two PvRIN4 proteins was tested with a yeast two-hybrid (Y2H) assay. HopF1 was expressed as a GAL4-activating domain (AD)-fusion protein (AD-HopF1), and PvRIN4a and PvRIN4b were expressed as GAL4-binding PD-1 antibody inhibitor domain (BD)-fusion PtdIns(3,4)P2 proteins (BD-RIN4a/b). Y2H assay detected specific
interactions between HopF1 and both PvRIN4a and PvRIN4b (Fig. 2a). Interaction in plant cells between HopF1 and PvRIN4 proteins was confirmed by coimmunoprecipitation assay. Arabidopsis protoplasts was prepared and transfected with HA-tagged PvRIN4a or PvRIN4b alone or in combination with FLAG-tagged HopF1. Following gene expression overnight, total protein extract was immunoprecipitated with anti-FLAG antibody, and the presence of PvRIN4-HA was then detected in the immunocomplex. The results showed that PvRIN4a-HA and PvRIN4b-HA were detected in the immunocomplex from protein extracts of HopF1-FLAG and PvRIN4-HA coexpression, but not when PvRIN4a-HA and PvRIN4b-HA were expressed alone, indicating specific interactions between HopF1 and PvRIN4 orthologs (Fig. 2b). AtRIN4 negatively regulates PTI in Arabidopsis (Kim et al., 2005). The effects of PvRIN4 on bean PTI was tested here through detection of flg22-induced callose deposition on bean leaves silencing PvRIN4a and/or PvRIN4b. Silencing PvRIN4 was carried out with the BPMV-based vector. RT-PCR showed that PvRIN4 expression was almost completely abolished in new fully expanded leaves 3 weeks after infection with PvRIN4 silence vectors, but not with BPMV empty vector (Fig. 3a).