Mouse embryos lacking the retinoic acid receptor gene RXRα die in midgestation from hypoplastic development of the myocardium of the ventricular chambers and consequent cardiac failure. In this study, we address the issue of whether the RXRα gene is required in the cardiomyocyte lineage by generating mice that harbor a ventricular restricted deficiency in RXRα at the earliest stages of ventricular chamber specification. We first created a conditional (‘floxed’) allele of RXRα by flanking a required exon of the gene with loxP recombination sequences. To achieve ventricular myocardium-specific gene targeting, and to avoid potential transgenic artifacts, we employed a knock-in strategy to place cre recombinase coding sequences into the myosin light chain 2v (MLC2v) genomic locus, a gene which in the heart is expressed exclusively in ventricular cardiomyocytes at the earliest stages of ventricular specification. Crossing the MLC2v-cre allele with the floxed RXRα gene resulted in embryos in which approximately 80% of the ventricular cardiomyocytes lacked RXRα function, and yet which displayed a completely normal phenotype, without evidence of the wide spectrum of congenital heart disease phenotype seen in RXRa^−/−embryos, and normal adult viability. We conclude that the RXRα mutant phenotype is not cell autonomous for the cardiomyocyte lineage, and suggest that RXRα functions in a neighboring compartment of the developing heart to generate a signal that is required for ventricular cardiomyocyte development and chamber maturation.