Single-cell phenomics reveals behavioural and mechanical heterogeneities underpinning collective migration during mouse anterior patterning 26 May Written By Creative Machine Computational reconstruction of a mouse embryo in which individual cells (magenta) have been tracked (blue). The coordinated movement of a subset of the cells is what sets up the head-tail axis i the embryo. Matthew Stower, Felix Zhou, Shankar Srinivasdoi: https://doi.org/ 10.1101/2023.03.31.534937SEE TALK THEME: AI VISUALISATION FOR SCIENTIFIC DISCOVERY Creative Machine
Single-cell phenomics reveals behavioural and mechanical heterogeneities underpinning collective migration during mouse anterior patterning 26 May Written By Creative Machine Computational reconstruction of a mouse embryo in which individual cells (magenta) have been tracked (blue). The coordinated movement of a subset of the cells is what sets up the head-tail axis i the embryo. Matthew Stower, Felix Zhou, Shankar Srinivasdoi: https://doi.org/ 10.1101/2023.03.31.534937SEE TALK THEME: AI VISUALISATION FOR SCIENTIFIC DISCOVERY Creative Machine