Bacterial wilt (BW) caused by Ralstonia solanacearum (Rs) is a devastating soil-borne disease of many crops, and breeding for durable resistance is urgent and important for disease control. The major QTL associated with tomato cultivar Hawaii 7996 (H7996) resistance against Rs phylotype I strains is named Bwr12. Our previous studies suggested that 12g690 may have a negative role in tomato resistance to BW via regulating SA and JA pathways. In addition, the disease responses and defense nature of another BW-resistant tomato cultivar Hawaii 7998 (H7998) are not characterized. The first part of this study aimed to further determine the roles of 12g690 in several important diseases and its molecular characteristics. Characterization of transgenic tobacco plants confirmed the negative role of 12g690 in BW-defense. However, 12g690 transcription in tomato root and stem-base might not be regulated by Rs infection nor differentially regulated in H7996 and susceptible cultivar WVa700. In addition, results of transient and transgenic functional genetic analyses suggested that 12g690 may not have a major role in tomato and tobacco against Pseudomonas syringae pv. tomato (Pst), Pectobacterium carotovorum subsp. carotovorum (Pcc) and Botrytis cinerea (Bc). Furthermore, sequence analysis of 12g690 genomic DNA in H7996 and WVa700 revealed non-synonymous SNPs and a 24-bp insertion are present in H7996. Analyses of 12g690 transcripts showed that most transcripts retain both introns in both cultivars and this intron-retention phenomenon is not altered by Rs infection. Intron retention in 12g690 transcripts would lead to early termination with a predicted protein product of 36 amino acids (12g6901-36) and in planta expression of 12g690 recombinant protein showed consistent results. Protein subcellular localization assay further showed that 12g6901-36-GFP localizes on plasma membrane, while 12g690FL-GFP was not detectable. The second part of this study aimed to determine the disease responses and defense nature. The results showed that H7998 confers similar or higher degrees of resistance to Pcc, Pst and Bc compared to H7996. Moreover, H7998 confers slightly higher levels in H2O2 accumulation and callose deposition, two key characteristics of innate immunity. Together, these results provide important information regarding the nature of tomato defense.