Abstract

Significance Animal cells undergo a remarkable series of shape changes as they pass through mitosis and divide. In an epithelial tissue, the impact of these morphogenetic processes depends strongly on the orientation of division. However, the cues orienting divisions remain poorly understood. Here, we combine live imaging and mechanical perturbations with computational modeling to investigate the effects of shape changes accompanying mitosis and division in stretched monolayers in the absence of neighbor exchange. We show that divisions orient with the long cell axis rather than with the stress direction, and show how oriented divisions contribute to the restoration of cell packing and stress relaxation. In doing so, we identify a clear role for oriented cell division in morphogenetically active tissues.