The development of characteristic visceral asymmetries along the left-right (LR) axis in an initially bilaterally symmetrical embryo is an essential feature of vertebrate patterning. The allelic mouse mutations inversus viscerum (iv) and legless (lgl) produce LR inversion, or situs inversus, in half of live-born homozygotes. This suggests that the iv gene product drives correct LR determination, and in its absence this process is randomized. These mutations provide tools for studying the development of LR-handed asymmetry and provide mouse models of human lateralization defects. At the molecular level, the normally LR asymmetric expression patterns of nodal and lefty are randomized in iv/iv embryos, suggesting that iv functions early in the genetic hierarchy of LR specification. Here we report the positional cloning of an axonemal dynein heavy-chain gene, left/right-dynein (lrd), that is mutated in both lgl and iv. lrd is expressed in the node of the embryo at embryonic day 7.5, consistent with its having a role in LR development. Our findings indicate that dynein, a microtubule-based motor, is involved in the determination of LR-handed asymmetry and provide insight into the early molecular mechanisms of this process.