2021
DOI: 10.1088/1367-2630/ac39b4
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Molecular motor-driven filament transport across three-dimensional, polymeric micro-junctions

Abstract: Molecular motor-driven filament systems have been extensively explored for biomedical and nanotechnological applications such as lab-on-chip molecular detection or network-based biocomputation. In these applications, filament transport conventionally occurs in two dimensions (2D), often guided along open, topographically and/or chemically structured channels which are coated by molecular motors. However, at crossing points of different channels the filament direction is less well determined and, though crucial… Show more

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Cited by 10 publications
(11 citation statements)
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“…Refs. [ 19 , 20 , 21 ]). The actin-myosin system, using the motor protein myosin-II, which is a fast motor that is readily available from skeletal muscle to propel cytoskeletal actin filaments as the motile agents (cf.…”
Section: Nanofabrication Technologies For Nbcmentioning
confidence: 99%
“…Refs. [ 19 , 20 , 21 ]). The actin-myosin system, using the motor protein myosin-II, which is a fast motor that is readily available from skeletal muscle to propel cytoskeletal actin filaments as the motile agents (cf.…”
Section: Nanofabrication Technologies For Nbcmentioning
confidence: 99%
“…To avoid a majority of filaments crossing the network making errors, the error rate at pass junctions needs to be below 0.07%, [15] a factor of 4 better than the best error rate reported for an NBC calculation so far [15] and achievable with error-free 3D junctions. [32] To ensure that a sufficient number of agents explore this network, %50 000 actin filaments are required, [14,33] which corresponds to %5 Â 10 À10 mg actin, an amount that is available at a very low cost. Third, agents need to be detected efficiently at exits, for example, using electrical/ optical sensors.…”
Section: Scaling Considerationsmentioning
confidence: 99%
“…(ii) Actin filaments will require the redesign of pass junctions in order to reduce the junction errors. This can be realized by narrower channels or the integration of 3D pass junction geometries with bridges and tunnels , that would eliminate pass-junction errors altogether. Despite our significant progress, it is obvious that NBC still has a long way to go if it is to compete with electronic computers that have had a headstart of decades’ (and billions of dollars) worth of research and development.…”
Section: Network Encoding Of “Reverse” Exact Cover Devicesmentioning
confidence: 99%