In summary, mutations in acfB and tcpI alter the motility/chemotaxis behavior of V. cholerae, consistent with these genes encoding MCPs. The acfB, tcpI, and acfB tcpI mutants were measured for their ability to colonize the infant mouse small intestine utilizing a competition

assay (Fig. 3a). As has been shown previously (Butler & Camilli, 2004), the cheY-3 mutant is able to out compete the wild-type strain for intestinal colonization, in this strain background approximately 15-fold (CI=15.2), and complementation of this mutant with cheY-3 in trans (cheY-3/pcheY-3) results in restoration of wild-type levels of colonization (CI=1.1). In contrast, the acfB and tcpI mutants colonized the small intestine similar to the wild-type strain; there was no statistically significant difference in the levels of colonization EPZ015666 datasheet of these strains

compared with that of the wild-type strain. A tcpI∷TnphoA strain was previously shown to colonize the small intestine similar to the wild-type strain, while an acfB∷TnphoA strain was approximately 10-fold defective for intestinal colonization (Peterson & Mekalanos, 1988); we suggest that the defect of the acfB∷TnphoA mutant seen previously may be due to polar effects on downstream gene(s), given the lack of a defect in intestinal colonization of a strain with an in-frame deletion in acfB shown here. Interestingly, the acfB tcpI mutant displayed a significant colonization defect at levels approximately one-third that of the wild-type strain (CI=0.23, P=0.001), suggesting that AcfB and TcpI have overlapping functions in intestinal colonization. To confirm that the loss of both TcpI and AcfB was the cause of the selleck colonization defect of the acfB tcpI mutant, we performed a competition assay of the acfB tcpI double mutant strain expressing either AcfB or TcpI in trans against the wild-type aminophylline strain (Fig. 3b). For these assays, all strains were grown and inoculated in the presence of 0.1% arabinose to facilitate expression of AcfB from the araBAD promoter.

As seen previously, the acfB tcpI mutant displayed a significant defect (approximately threefold; CI=0.3) in intestinal colonization. Providing TcpI in trans enhanced colonization of this mutant (CI=0.6, P=0.013), and provision of AcfB in trans allowed for wild-type levels of colonization (CI=1.2, P=0.001). These results confirm that loss of both AcfB and TcpI diminishes intestinal colonization. Expression of the major virulence factors CT and TCP was measured in all strains under inducing in vitro conditions, and no significant decrease in either CT or TCP expression could be detected in the acfB, tcpI, or acfB tcpI strains (data not shown). Nonchemotactic mutant V. cholerae are able to outcompete the wild-type strain in a competition assay due to colonization of the upper small intestine, in addition to colonization of the lower intestine, where the wild-type strain preferentially colonizes (Lee et al.