Abstract The O1 serogroup of Vibrio cholerae causes pandemic cholera and is divided into Ogawa and Inaba serotypes. The O-antigen is V. cholerae’s immunodominant antigen, and the two serotypes, which differ by the presence or absence of a terminally methylated O-antigen, likely influence development of immunity to cholera and oral cholera vaccines (OCVs). However, there is no consensus regarding the relative immunological potency of each serotype, in part because previous studies relied on genetically heterogenous strains. Here, we engineered matched serotype variants of a live OCV candidate, HaitiV, and used a germ-free mouse model to evaluate the immunogenicity and protective efficacy of each vaccine serotype. By combining vibriocidal antibody quantification with single and mixed strain infection assays, we found that all three HaitiV variants - Inaba V , Ogawa V , and Hiko V (bivalent Inaba/Ogawa) - were immunogenic and protective, suggesting the impact of O1 serotype variation on OCV function may be minimal. The potency of OCVs was found to be challenge strain-dependent, emphasizing the importance of appropriate strain selection for cholera challenge studies. Our findings and experimental approaches will be valuable for guiding the development of live OCVs and oral vaccines for additional pathogens.