Effect of the degree of polar mismatching on traffic jam formation in fast axonal transport |
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Authors: | A.V. Kuznetsov |
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Affiliation: | 1. Department of Mechanical and Aerospace Engineering , North Carolina State University , Campus Box 7910, Raleigh, NC, 27695-7910, USA avkuznet@eos.ncsu.edu |
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Abstract: | This paper simulates an axon with a region of reversed microtubule (MT) polarity, and investigates how the degree of polar mismatching in this region affects the formation of organelle traps in the axon. The model is based on modified Smith–Simmons equations governing molecular-motor-assisted transport in neurons. It is established that the structure that develops as a result of a region with disoriented MTs consists of two organelle traps, the trap to the left of this region accumulates plus-end-oriented organelles and the trap to the right of this region accumulates minus-end-oriented organelles. The presence of such a structure is shown to inhibit the transport of organelles down the axon. The degree by which the transport of organelles is inhibited depends on the degree of polar mismatching of MTs in the region between MT traps. Four cases with a different degree of polar mismatching are investigated. |
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Keywords: | molecular motors motor-assisted transport neurons axons and dendrites intracellular organelles vesicle traps |
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