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Attractive internuclear force drives the collective behavior of nuclear arrays in Drosophila embryos
2021
PLoS Computational Biology
The collective behavior of the nuclear array in Drosophila embryos during nuclear cycle (NC) 11 to NC14 is crucial in controlling cell size, establishing developmental patterns, and coordinating morphogenesis. After live imaging on Drosophila embryos with light sheet microscopy, we extract the nuclear trajectory, speed, and internuclear distance with an automatic nuclear tracing method. We find that the nuclear speed shows a period of standing waves along the anterior-posterior (AP) axis after
doi:10.1371/journal.pcbi.1009605
pmid:34797833
pmcid:PMC8641897
fatcat:osd6u6w5hzcnlbrsnfksjkhshu