Breuer, DavidNowak, JacquelineIvakov, AlexanderSomssich, MarcPersson, StaffanNikoloski, Z2021-09-220027-8424http://hdl.handle.net/1885/248331In the crowded interior of a cell, diffusion alone is insufficient to master varying transport requirements for cell sustenance and growth. The dynamic actin cytoskeleton is an essential cellular component that provides transport and cytoplasmic streaming in plant cells, but little is known about its system-level organization. Here, we resolve key challenges in understanding system-level actin-based transport. We present an automated image-based, network-driven framework that accurately incorporates both actin cytoskeleton and organelle trafficking. We demonstrate that actin cytoskeleton network properties support efficient transport in both growing and elongated hypocotyl cells. We show that organelle transport can be predicted from the system-wide cellular organization of the actin cytoskeleton. Our framework can be readily applied to investigate cytoskeleton-based transport in other organisms.application/pdfen-AUactincytoskeletonGolgiimage processingnetworks201710.1073/pnas.17067111142020-11-23