Pseudomonas syringae pv. tomato (Pst) DC3000 is the causing agent of tomato bacterial speck disease, and also one of the model organisms for studying the interactions between phytopathogenic bacteria and their hosts. Similar to the other phytopathogenic bacteria, Pst DC3000 can also translocate effector proteins into its host cells via the type III secretion system, to interfere with defense responses and/or normal physiological/-metabolic pathways, leading to symptoms development on host plants. AvrPtoB is a type III secretion effector identified in Pst DC3000. In addition to the virulence activities mentioned above, AvrPtoB can also be recognized by the resistant protein Pto and triggers a hypersensitive response (HR). Previous studies have shown that the sequence of avrPtoB is widely present in Pseudomonas syringae, in which a homolog of AvrPtoB from a bean pathogen P. s. pv. syringae (Psy) B728a (hereafter AvrPtoBB728a), can also induced HR on cultivate tomato lacking Pto. This response is related to the Pto gene family members as determined by gene silencing analysis. The purpose of this study was to confirm the resistant (R) protein(s) responsible for recognizing AvrPtoBB728a to induce resistance responses in cultivate tomato. In addition, the region of AvrPtoBB728a required for interaction with the cognate resistant protein was also determined. The N- or C-terminal truncations of AvrPtoBB728a were constructed for yeast two-hybrid analysis as well as pathogenicity or HR test. The results demonstrated that SlPtoB, which can recognize only AvrPtoBB728a, but not AvrPtoB728a or AvrPtoB, is indeed the corresponding R protein for AvrPtoBB728a-induced resistance in cultivate tomato. The smallest region of AvrPtoBB728a required for SlPtoB recognition is amino acids 111–330. When tomato cultivar Rio-Grande PtoR was substituted for the pathogenicity assay, the fragment of AvrPtoBB728a sufficient for triggering Pto-mediated resistance could be amino acids 111–215. Amino acid sequence alignment of AvrPtoBB728a and AvrPtoB revealed that Pto-interacting domains (PID) of these two effectors are similar. However, AvrPtoBB728a interaction with SlPtoB requires longer fragment equivalent to a region covering the Fen-interacting domain (FID) and PID of AvrPtoB.