Streptococcus mutans is one of the principle causative agents of dental caries, and an opportunistic pathogen of infective endocarditis (IE). Bacteremia is caused by S. mutans following common dental procedures or oral trauma. In blood circulation, S. mutans can escape from immune surveillance and adhere on damaged valve surface to form vegetation（platelet-fibrin biofilm）, which is a decisive pathogenic process in IE. S. mutans has 14 two component systems（TCSs） which is composed of a histidine kinase sensor（HK）and a response regulator（RR）to sense and respond to environmental change. The bacterial virulence factors are commonly regulated through TCSs. We used a PCR-dependent detection assay to assess in vivo the role of individual hk or rr mutant strains potential affecting pathogenesis of IE, particularly focusing on the biofilm formation in a rat (experimental endocarditis model). One of deletion mutants rr11 was reduced in the colonization on vegetations of catheterized rats when coinfected with a pool of hk or rr mutant strains, respectively. Furthermore, we identified biofilm formation in situ on the vegetation by Ultra Sensitive Imaging System and confocal laser scanning microscope approaches. Both systems revealed that the biofilms formed by rr11 deletion mutant in the vegetation had altered architecture. Deletion of rr11 also resulted in reduced biofilm formation in the platelet rich plasma (PRP). Together, these results indicated that the new response regulator participate in the pathogenesis of IE through regulating biofilm formation in situ on vegetation.