Distinctive cellular and junctional dynamics independently regulate the rotation and elongation of the internal organ

Complex structures of organs are formed at high reproducibility, and deformations of epithelia play major roles in these processes. To acquire the intricate morphology, an epithelium simultaneously suffers multiple structural changes. For example, to form the left-right asymmetric structure of Drosophila embryonic hindgut, its epithelial tube concurrently rotates and elongates, which are driven by cell sliding and convergent extension, respectively. However, how an epithelium simultaneously accomplishes multiple structural changes remains unclear. To address this issue, we here studied the relevancy between these two mechanisms in the hindgut morphogenesis. Our live imaging analysis revealed that Myosin1D and E -cad herin , or Par-3 are required only for cell sliding or convergent extension, respectively, while Myosin II is essential for both. Mathematical models showed that these cellular dynamics share a single mechanical system in the same time window. Such specificity and universality of the machineries controlling epithelial dynamics might be a general strategy adopted in complex tissue morphogenesis. ### Competing Interest Statement The authors have declared no competing interest.