1. Multi-Motor Cargo Navigation in Complex Cytoskeletal Networks
- Author
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Grieb, Mason, Krishnan, Nimisha, and Ross, Jennifer L.
- Subjects
Quantitative Biology - Biomolecules ,Condensed Matter - Soft Condensed Matter - Abstract
The kinesin superfamily of motor proteins is a major driver of anterograde transport of vesicles and organelles within eukaryotic cells via microtubules. Numerous studies have elucidated the step-size, velocities, forces, and navigation ability of kinesins both in reconstituted systems and in live cells. Outside of cells, the kinesin-based transport is physically regulated and can be controlled by obstacles or defects in the path, or the interaction between several motors on the same cargo. To explore the physical control parameters on kinesin-driven transport, we created complex microtubule networks in vitro to test how kinesin cargoes made from quantum dots with one to 10 kinesin motors attached are able to navigate the network. We find that many motors on the quantum dot significantly alter distance walked, time spent bound, the average speed, and the tortuosity of the cargo. We also find that the average mesh size of the microtubule network affects the end-to-end distance of the motion, the run time, average speed and tortuosity of cargoes. Thus, both motor number and network density are physical aspects that regulate where cargoes traverse in space and time., Comment: 7 figures in main text, 1 figure in appendix, 13 tables in appendix
- Published
- 2024