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Active unidirectional network flow generates a packet molecular transport in cells

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arxiv 1810.07272 v1 pith:PBNDTLEP submitted 2018-10-16 q-bio.SC cond-mat.otherphysics.bio-ph

Active unidirectional network flow generates a packet molecular transport in cells

classification q-bio.SC cond-mat.otherphysics.bio-ph
keywords networktimetransportationcellsmechanismmolecularmoleculesnetworks
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Internet, social media, neuronal or blood vessel are organized in complex networks. These networks are characterized by several quantities such as the underlying graph connectivity (topology), how they grow in time, scaling laws or by the mean time a random search can cover a network and also by shortest path between two nodes. We present here a novel type of network property based on a unidirectional transport mechanism occurring in the Endoplasmic Reticulum network found in the cell cytoplasm. This mechanism is an active-waiting transportation, where molecules have to wait a random time before being transported from one node to the next one. We find that the consequence of this unusual network transportation is that molecules travel together by recurrent packets, which quite a large deviation behavior compared to classical propagation in graphs. To conclude, this form of transportation is associated with an efficient and robust molecular redistribution inside cells.

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