Intracellular transport driven by cytoskeletal motors: General mechanisms and defects

Cells are strongly out-of-equilibrium systems driven by continuous energy supply. They carry out many vital functions requiring active transport of various ingredients and organelles, some being small, others being large. The cytoskeleton, composed of three types of filaments, determines the shape of the cell and plays a role in cell motion. It also serves as a road network for the so-called cytoskeletal motors. These molecules can attach to a cytoskeletal filament, perform directed motion, possibly carrying along some cargo, and then detach. It is a central issue to understand how intracellular transport driven by molecular motors is regulated, in particular because its breakdown is one of the signatures of some neuronal diseases like the Alzheimer. We give a survey of the current knowledge on microtubule based intracellular transport. We first review some biological facts obtained from experiments, and present some modeling attempts based on cellular automata. We start with background knowledge on the original and variants of the TASEP (Totally Asymmetric Simple Exclusion Process), before turning to more application oriented models. After addressing microtubule based transport in general, with a focus on in vitro experiments, and on cooperative effects in the transportation of large cargos by multiple motors, we concentrate on axonal transport, because of its relevance for neuronal diseases. It is a challenge to understand how this transport is organized, given that it takes place in a confined environment and that several types of motors moving in opposite directions are involved. We review several features that could contribute to the efficiency of this transport, including the role of motor-motor interactions and of the dynamics of the underlying microtubule network. Finally, we discuss some still open questions.

[1]  A. Schadschneider,et al.  Asymmetric exclusion processes with shuffled dynamics , 2005, cond-mat/0509546.

[2]  C. Wilhelm,et al.  In Vivo Determination of Fluctuating Forces during Endosome Trafficking Using a Combination of Active and Passive Microrheology , 2010, PloS one.

[3]  P. Baas,et al.  Microtubule Transport in the Axon: Re-thinking a Potential Role for the Actin Cytoskeleton , 2006, The Neuroscientist : a review journal bringing neurobiology, neurology and psychiatry.

[4]  N. Galjart,et al.  A plus-end raft to control microtubule dynamics and function. , 2003, Current opinion in cell biology.

[5]  Ludger Santen,et al.  Environmental control of microtubule-based bidirectional cargo transport , 2014, 1404.3478.

[6]  F. Saudou,et al.  Vesicular Glycolysis Provides On-Board Energy for Fast Axonal Transport , 2013, Cell.

[7]  S. Ahmadian,et al.  A possible mechanism for controlling processive transport by microtubule-associated proteins , 2008, Neuroscience Research.

[8]  A. Ajdari,et al.  Directional motion of brownian particles induced by a periodic asymmetric potential , 1994, Nature.

[9]  G. Drewes,et al.  MAPs, MARKs and microtubule dynamics. , 1998, Trends in biochemical sciences.

[10]  George Perry,et al.  Microtubule reduction in Alzheimer's disease and aging is independent of tau filament formation. , 2003, The American journal of pathology.

[11]  Ludger Santen,et al.  Dynamics of an exclusion process with creation and annihilation , 2004 .

[12]  Joachim P Spatz,et al.  Dynamic kinesin-1 clustering on microtubules due to mutually attractive interactions , 2008, Physical biology.

[13]  Adrian N Fehr,et al.  Kinesin steps do not alternate in size. , 2008, Biophysical journal.

[14]  L. Santen,et al.  Shock dynamics of two-lane driven lattice gases , 2010, 1005.1504.

[15]  Reinhard Lipowsky,et al.  Phase transitions in systems with two species of molecular motors , 2004, cond-mat/0402195.

[16]  Debra J Searles,et al.  Experimental demonstration of violations of the second law of thermodynamics for small systems and short time scales. , 2002, Physical review letters.

[17]  Joachim Krug,et al.  LETTER TO THE EDITOR: Phase transitions in driven diffusive systems with random rates , 1996 .

[18]  Fernando Falo,et al.  Tug of war of molecular motors: the effects of uneven load sharing , 2011, Physical biology.

[19]  I. A. Telley,et al.  Obstacles on the microtubule reduce the processivity of Kinesin-1 in a minimal in vitro system and in cell extract. , 2009, Biophysical journal.

[20]  A. Schadschneider,et al.  Asymmetric Exclusion Processes with Non-Factorizing Steady States , 2007 .

[21]  J. Howard,et al.  Microtubule catastrophe and rescue. , 2013, Current opinion in cell biology.

[22]  Erwin Frey,et al.  Phase coexistence in driven one-dimensional transport. , 2003, Physical review letters.

[23]  H. Hilhorst,et al.  Intersection of two TASEP traffic lanes with frozen shuffle update , 2011, 1107.5166.

[24]  Adam G. Hendricks,et al.  Motor Coordination via a Tug-of-War Mechanism Drives Bidirectional Vesicle Transport , 2010, Current Biology.

[25]  L. Wordeman,et al.  How motor proteins influence microtubule polymerization dynamics. , 2000, Journal of cell science.

[26]  B. Nienhuis,et al.  Exact stationary state for an asymmetric exclusion process with fully parallel dynamics. , 1998, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.

[27]  David Pellman,et al.  Surfing on microtubule ends. , 2003, Trends in cell biology.

[28]  Bin Zhang,et al.  Axonal transport defects: a common theme in neurodegenerative diseases , 2005, Acta Neuropathologica.

[29]  L. Santen,et al.  Active transport and cluster formation on 2D networks , 2009, The European physical journal. E, Soft matter.

[30]  Nir S. Gov,et al.  Modelling interacting molecular motors with an internal degree of freedom , 2013 .

[31]  M. Fisher,et al.  Dynamics of the tug-of-war model for cellular transport. , 2010, Physical review. E, Statistical, nonlinear, and soft matter physics.

[32]  A. Schadschneider,et al.  The Asymmetric Exclusion Process: Comparison of Update Procedures , 1997 .

[33]  E. Schrödinger,et al.  What is life? : the physical aspect of the living cell , 1946 .

[34]  A B Kolomeisky,et al.  The force exerted by a molecular motor. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[35]  K. Kruse,et al.  Uncorrelated changes of subunit stability can generate length-dependent disassembly of treadmilling filaments , 2009, Physical biology.

[36]  F. MacKintosh,et al.  Nonequilibrium mechanics and dynamics of motor-activated gels. , 2007, Physical review letters.

[37]  R. Chisholm,et al.  Cytoplasmic dynein-associated structures move bidirectionally in vivo. , 2002, Journal of cell science.

[38]  V Popkov,et al.  Symmetry breaking and phase coexistence in a driven diffusive two-channel system. , 2001, Physical review. E, Statistical, nonlinear, and soft matter physics.

[39]  Ralph A. Nixon,et al.  Slow axonal transport , 1992, Current Biology.

[40]  D. Seog,et al.  Molecular Motor Proteins of the Kinesin Superfamily Proteins (KIFs): Structure, Cargo and Disease , 2004, Journal of Korean medical science.

[41]  Joshua W. Shaevitz,et al.  Probing the kinesin reaction cycle with a 2D optical force clamp , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[42]  Paul R. Selvin,et al.  The role of microtubule movement in bidirectional organelle transport , 2008, Proceedings of the National Academy of Sciences.

[43]  Susan P. Gilbert,et al.  Pathway of processive ATP hydrolysis by kinesin , 1995, Nature.

[44]  A. Schadschneider,et al.  Disordered driven lattice gases with boundary reservoirs and Langmuir kinetics. , 2008, Physical review. E, Statistical, nonlinear, and soft matter physics.

[45]  M. Spira,et al.  Paclitaxel induces axonal microtubules polar reconfiguration and impaired organelle transport: implications for the pathogenesis of paclitaxel-induced polyneuropathy , 2010, Acta Neuropathologica.

[46]  A. Ajdari,et al.  Force-Free Motion in Asymmetric Structures: A Mechanism without Diffusive Steps , 1994 .

[47]  E. Ben-Naim,et al.  MAXWELL MODEL OF TRAFFIC FLOWS , 1999 .

[48]  Haye Hinrichsen,et al.  Matrix product ground states for exclusion processes with parallel dynamics , 1995 .

[49]  Nanda Keijzer,et al.  Probing intracellular motor protein activity using an inducible cargo trafficking assay. , 2010, Biophysical journal.

[50]  Mustansir Barma,et al.  Driven lattice gases with quenched disorder: Exact results and different macroscopic regimes , 1998 .

[51]  J. Adler,et al.  Gray's Anatomy: The Anatomical Basis of Clinical Practice, 40th Edition , 2010 .

[52]  G. Yule,et al.  A Mathematical Theory of Evolution, Based on the Conclusions of Dr. J. C. Willis, F.R.S. , 1925 .

[53]  Reinhard Lipowsky,et al.  Random walks of molecular motors arising from diffusional encounters with immobilized filaments. , 2004, Physical review. E, Statistical, nonlinear, and soft matter physics.

[54]  M. Spira,et al.  Formation of microtubule-based traps controls the sorting and concentration of vesicles to restricted sites of regenerating neurons after axotomy , 2007, The Journal of cell biology.

[55]  Frank Jülicher,et al.  Cortical Dynein Controls Microtubule Dynamics to Generate Pulling Forces that Position Microtubule Asters , 2012, Cell.

[56]  Ludger Santen,et al.  DISORDER EFFECTS IN CELLULAR AUTOMATA FOR TWO-LANE TRAFFIC , 1999 .

[57]  John M. Walker,et al.  Molecular Motors , 2007, Methods in Molecular Biology™.

[58]  G. Schütz,et al.  Generalized Bethe ansatz solution of a one-dimensional asymmetric exclusion process on a ring with blockage , 1993 .

[59]  Sander,et al.  Ballistic deposition on surfaces. , 1986, Physical review. A, General physics.

[60]  Ludger Santen,et al.  Stochastic Modeling of Cargo Transport by Teams of Molecular Motors , 2014, 1407.4317.

[61]  Chris McKay,et al.  What Is Life—and How Do We Search for It in Other Worlds? , 2004, PLoS biology.

[62]  G. Schütz,et al.  Phase diagram of one-dimensional driven lattice gases with open boundaries , 1998 .

[63]  Hisao Hayakawa,et al.  Synchronization of kinks in the two-lane totally asymmetric simple exclusion process with open boundary conditions , 2005 .

[64]  L. Qiang,et al.  Microtubules cut and run. , 2005, Trends in cell biology.

[65]  Steven P. Gross,et al.  Consequences of Motor Copy Number on the Intracellular Transport of Kinesin-1-Driven Lipid Droplets , 2008, Cell.

[66]  L. Santen,et al.  A model for bidirectional traffic of cytoskeletal motors , 2009, 0901.0183.

[67]  C. Leidel,et al.  Measuring molecular motor forces in vivo: implications for tug-of-war models of bidirectional transport. , 2012, Biophysical journal.

[68]  Krug,et al.  Boundary-induced phase transitions in driven diffusive systems. , 1991, Physical review letters.

[69]  Manfred Schliwa,et al.  Molecular motors , 2003, Nature.

[70]  N. Hirokawa,et al.  Projection domains of MAP2 and tau determine spacings between microtubules in dendrites and axons , 1992, Nature.

[71]  Masahide Kikkawa,et al.  Dynein and kinesin share an overlapping microtubule‐binding site , 2004, The EMBO journal.

[72]  Melissa K. Gardner,et al.  Depolymerizing Kinesins Kip3 and MCAK Shape Cellular Microtubule Architecture by Differential Control of Catastrophe , 2011, Cell.

[73]  S. Gross Hither and yon: a review of bi-directional microtubule-based transport , 2004, Physical biology.

[74]  Driven lattice gas of dimers coupled to a bulk reservoir. , 2006, Physical review. E, Statistical, nonlinear, and soft matter physics.

[75]  J. Ross,et al.  Cargo transport: molecular motors navigate a complex cytoskeleton. , 2008, Current opinion in cell biology.

[76]  E. Morrison Action and interactions at microtubule ends , 2007, Cellular and Molecular Life Sciences.

[77]  Z. Reich,et al.  A possible mechanism for self-coordination of bidirectional traffic across nuclear pores , 2008, Physical biology.

[78]  H. Hilhorst,et al.  Spontaneous symmetry breaking in a two-lane model for bidirectional overtaking traffic , 2010, 1006.2272.

[79]  S. Fowler,et al.  Nile red: a selective fluorescent stain for intracellular lipid droplets , 1985, The Journal of cell biology.

[80]  Ken’ya Furuta,et al.  Measuring collective transport by defined numbers of processive and nonprocessive kinesin motors , 2012, Proceedings of the National Academy of Sciences.

[81]  L. Santen,et al.  Particle interactions and lattice dynamics: scenarios for efficient bidirectional stochastic transport? , 2011, 1103.3658.

[82]  R. Lipowsky,et al.  Cooperative cargo transport by several molecular motors. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[83]  M. Shelanski,et al.  τ Regulation of Microtubule‐Microtubule Spacing and Bundling , 1994 .

[84]  Andreas Schadschneider,et al.  Friction effects and clogging in a cellular automaton model for pedestrian dynamics. , 2003, Physical review. E, Statistical, nonlinear, and soft matter physics.

[85]  S. Leibler,et al.  Physical aspects of the growth and regulation of microtubule structures. , 1993, Physical review letters.

[86]  Erwin Frey,et al.  Totally asymmetric simple exclusion process with Langmuir kinetics. , 2004, Physical review. E, Statistical, nonlinear, and soft matter physics.

[87]  F. MacKintosh,et al.  Molecular motors robustly drive active gels to a critically connected state , 2013, Nature Physics.

[88]  K. Böhm,et al.  Kinesin passing permanent blockages along its protofilament track. , 2010, Biochemical and biophysical research communications.

[89]  Donald E. Ingber,et al.  Jcb: Article Introduction , 2002 .

[90]  V. Mennella,et al.  Kinesin-13s form rings around microtubules , 2006, The Journal of cell biology.

[91]  R. Lipowsky,et al.  Transport by Molecular Motors in the Presence of Static Defects , 2009, 0905.0965.

[92]  Jiming Liu,et al.  Effects of Langmuir Kinetics of Two-Lane Totally Asymmetric Exclusion Processes in Protein Traffic , 2007, q-bio/0703043.

[93]  Roop Mallik,et al.  Tug-of-war between dissimilar teams of microtubule motors regulates transport and fission of endosomes , 2009, Proceedings of the National Academy of Sciences.

[94]  Y. Li,et al.  Composite microtubules of the axon: quantitative analysis of tyrosinated and acetylated tubulin along individual axonal microtubules. , 1993, Journal of cell science.

[95]  J. Brankov,et al.  Generalized determinant solution of the discrete-time totally asymmetric exclusion process and zero-range process. , 2004, Physical review. E, Statistical, nonlinear, and soft matter physics.

[96]  M. Ebbinghaus Stochastic modeling of intracellular processes : bidirectional transport and microtubule dynamics , 2010 .

[97]  Robert F. Latham,et al.  Modeling mitochondrial dynamics during in vivo axonal elongation. , 2008, Journal of theoretical biology.

[98]  Bernard Derrida,et al.  Universal Large-Deviation Function of the Kardar–Parisi–Zhang Equation in One Dimension , 1999 .

[99]  M. Black,et al.  Effects of Dynactin Disruption and Dynein Depletion on Axonal Microtubules , 2006, Traffic.

[100]  P. Baas,et al.  Microtubules and axonal growth. , 1997, Current opinion in cell biology.

[101]  E. Salmon,et al.  Actomyosin-based Retrograde Flow of Microtubules in the Lamella of Migrating Epithelial Cells Influences Microtubule Dynamic Instability and Turnover and Is Associated with Microtubule Breakage and Treadmilling , 1997, The Journal of cell biology.

[102]  B. Alberts,et al.  Nucleation of microtubule assembly by a gamma-tubulin-containing ring complex. , 1995, Nature.

[103]  Pamela E. Constantinou,et al.  Two kinesins transport cargo primarily via the action of one motor: implications for intracellular transport. , 2010, Biophysical journal.

[104]  N. Hirokawa,et al.  Kinesin and dynein superfamily proteins and the mechanism of organelle transport. , 1998, Science.

[105]  S. Gross Dynactin: Coordinating Motors with Opposite Inclinations , 2003, Current Biology.

[106]  A. Schadschneider,et al.  Jamming transition in a cellular automaton model for traffic flow , 1998 .

[107]  L. Santen,et al.  Traffic of cytoskeletal motors with disordered attachment rates. , 2008, Physical review. E, Statistical, nonlinear, and soft matter physics.

[108]  J. Rubí,et al.  Confined Brownian ratchets. , 2013, The Journal of chemical physics.

[109]  D. Weitz,et al.  An active biopolymer network controlled by molecular motors , 2009, Proceedings of the National Academy of Sciences.

[110]  T. Yanagida,et al.  Mechanics of single kinesin molecules measured by optical trapping nanometry. , 1997, Biophysical journal.

[111]  L. Santen,et al.  Theoretical modeling of aging effects in microtubule dynamics. , 2011, Biophysical journal.

[112]  Kirone Mallick,et al.  Some exact results for the exclusion process , 2011, 1101.2849.

[113]  C. Lively,et al.  Kinesin-1 and Dynein are the primary motors for fast transport of mitochondria in Drosophila motor axons. , 2006, Molecular biology of the cell.

[114]  N. Galjart,et al.  EB1 and EB3 control CLIP dissociation from the ends of growing microtubules. , 2005, Molecular biology of the cell.

[115]  Gira Bhabha,et al.  Activation of cytoplasmic dynein motility by dynactin-cargo adapter complexes , 2014, Science.

[116]  H. Hilhorst,et al.  Frozen shuffle update for an asymmetric exclusion process on a ring , 2011, 1105.0352.

[117]  P. Baas,et al.  Microtubules released from the neuronal centrosome are transported into the axon. , 1995, Journal of cell science.

[118]  Andreas Schadschneider,et al.  VALIDATION OF CA MODELS OF PEDESTRIAN DYNAMICS WITH FUNDAMENTAL DIAGRAMS , 2009, Cybern. Syst..

[119]  W. Spillman,et al.  Steady states of a microtubule assembly in a confined geometry. , 2004, Physical review. E, Statistical, nonlinear, and soft matter physics.

[120]  Erkan Tüzel,et al.  Transport by populations of fast and slow kinesins uncovers novel family-dependent motor characteristics important for in vivo function. , 2014, Biophysical journal.

[121]  S. Gross,et al.  Building Complexity: An In Vitro Study of Cytoplasmic Dynein with In Vivo Implications , 2005, Current Biology.

[122]  G. Schütz,et al.  Green functions for the TASEP with sublattice parallel update , 2010, 1002.3456.

[123]  J. Caviston,et al.  Microtubule motors at the intersection of trafficking and transport. , 2006, Trends in cell biology.

[124]  L. Santen,et al.  A bottleneck model for bidirectional transport controlled by fluctuations , 2012, 1201.4121.

[125]  D. Chowdhury Stochastic mechano-chemical kinetics of molecular motors: A multidisciplinary enterprise from a physicist’s perspective , 2012, 1207.6070.

[126]  C. Brackley,et al.  Multiple phase transitions in a system of exclusion processes with limited reservoirs of particles and fuel carriers , 2012, 1201.2855.

[127]  R A Milligan,et al.  Kinesin follows the microtubule's protofilament axis , 1993, The Journal of cell biology.

[128]  V. Popkov,et al.  Infinite reflections of shock fronts in driven diffusive systems with two species , 2004 .

[129]  H. Hilhorst,et al.  Exact domain wall theory for deterministic TASEP with parallel update , 2013, 1310.2090.

[130]  Nobutaka Hirokawa,et al.  Molecular motors in neuronal development, intracellular transport and diseases , 2004, Current Opinion in Neurobiology.

[131]  V. S. Poghosyan,et al.  The relaxation dynamics of the tasep with particle-dependent hopping probabilities on a ring , 2008 .

[132]  B. C. Carter,et al.  Tracking single particles: a user-friendly quantitative evaluation , 2005, Physical biology.

[133]  Timo Betz,et al.  Time-resolved microrheology of actively remodeling actomyosin networks , 2014 .

[134]  Reinhard Lipowsky,et al.  Stochastic simulations of cargo transport by processive molecular motors. , 2009, The Journal of chemical physics.

[135]  S. Aspengren,et al.  Melanophores: A model system for neuronal transport and exocytosis? , 2007, Journal of neuroscience research.

[136]  E. Domany,et al.  Phase transitions in an exactly soluble one-dimensional exclusion process , 1993, cond-mat/9303038.

[137]  V. Fayaz,et al.  One-transit paths and the steady state of a non-equilibrium process in a discrete-time update , 2010, 1103.3181.

[138]  S. Redner,et al.  Dynamics of microtubule instabilities , 2007, Journal of statistical mechanics.

[139]  P. Ferrari,et al.  Matrix Representation of the Stationary Measure for the Multispecies TASEP , 2008, 0807.0327.

[140]  Ludger Santen,et al.  Motility states in bidirectional cargo transport , 2015, 1501.00823.

[141]  A. Schadschneider,et al.  Stochastic Modelling and Experiments on Intra-Cellular Transport of Single-Headed Molecular Motors , 2007 .

[142]  S. Halpain,et al.  MAP2 and tau bind longitudinally along the outer ridges of microtubule protofilaments , 2002, The Journal of cell biology.

[143]  Erwin Frey,et al.  Crowding of molecular motors determines microtubule depolymerization. , 2011, Biophysical journal.

[144]  J. Culotti,et al.  Microtubules and microtubule-associated proteins from the nematode Caenorhabditis elegans: periodic cross-links connect microtubules in vitro , 1986, The Journal of cell biology.

[145]  B. Brinkley Microtubule organizing centers. , 1985, Annual review of cell biology.

[146]  E. Muto,et al.  Long-range cooperative binding of kinesin to a microtubule in the presence of ATP , 2005, The Journal of cell biology.

[147]  B. Derrida AN EXACTLY SOLUBLE NON-EQUILIBRIUM SYSTEM : THE ASYMMETRIC SIMPLE EXCLUSION PROCESS , 1998 .

[148]  B. Schmittmann,et al.  Far-from-equilibrium transport with constrained resources , 2008, 0804.2717.

[149]  J. Szabad,et al.  In vivo analysis of MT-based vesicle transport by confocal reflection microscopy. , 2009, Cell motility and the cytoskeleton.

[150]  Samara L. Reck-Peterson,et al.  Single-Molecule Analysis of Dynein Processivity and Stepping Behavior , 2006, Cell.

[151]  Y. Goldman,et al.  Processive bidirectional motion of dynein–dynactin complexes in vitro , 2006, Nature Cell Biology.

[152]  P. Ashwin,et al.  Queueing induced by bidirectional motor motion near the end of a microtubule. , 2010, Physical review. E, Statistical, nonlinear, and soft matter physics.

[153]  Lukas C. Kapitein,et al.  Which way to go? Cytoskeletal organization and polarized transport in neurons , 2011, Molecular and Cellular Neuroscience.

[154]  G. Oberdörster,et al.  Nanotoxicology: An Emerging Discipline Evolving from Studies of Ultrafine Particles , 2005, Environmental health perspectives.

[155]  Kazuhiro Oiwa,et al.  Single‐molecule investigation of the interference between kinesin, tau and MAP2c , 2002, The EMBO journal.

[156]  Nonequilibrium phase transitions in the extraction of membrane tubes by molecular motors. , 2009, Physical review letters.

[157]  A. Hyman,et al.  Modulation of the dynamic instability of tubulin assembly by the microtubule-associated protein tau. , 1992, Molecular biology of the cell.

[158]  Collective vesicle transport on biofilaments carried by competing molecular motors , 2008 .

[159]  Richard S. Smith,et al.  Organelle dynamics in lobster axons: anterograde, retrograde and stationary mitochondria , 1987, Brain Research.

[160]  Anatoly B. Kolomeisky,et al.  Two-channel totally asymmetric simple exclusion processes , 2004, cond-mat/0407224.

[161]  Michael Vershinin,et al.  Studying molecular motor-based cargo transport: what is real and what is noise? , 2007, Biophysical journal.

[162]  P. Baas,et al.  Axonal Transport of Microtubules: the Long and Short of It , 2006, Traffic.

[163]  Michael Schreckenberg,et al.  A cellular automaton model for freeway traffic , 1992 .

[164]  Frank Bradke,et al.  Axon Extension Occurs Independently of Centrosomal Microtubule Nucleation , 2010, Science.

[165]  Reinhard Lipowsky,et al.  Active diffusion of motor particles. , 2005, Physical review letters.

[166]  Reinhard Lipowsky,et al.  Self-organized density patterns of molecular motors in arrays of cytoskeletal filaments. , 2005, Biophysical journal.

[167]  S Inoué,et al.  Asymmetric behavior of severed microtubule ends after ultraviolet- microbeam irradiation of individual microtubules in vitro , 1989, The Journal of cell biology.

[168]  Y. Goldman,et al.  Microtubule plus-end tracking by CLIP-170 requires EB1 , 2009, Proceedings of the National Academy of Sciences.

[169]  C. Hoogenraad,et al.  Basic mechanisms for recognition and transport of synaptic cargos , 2009, Molecular Brain.

[170]  B. Schmittmann,et al.  Modeling Translation in Protein Synthesis with TASEP: A Tutorial and Recent Developments , 2011, 1108.3312.

[171]  Samara L. Reck-Peterson,et al.  Tug-of-War in Motor Protein Ensembles Revealed with a Programmable DNA Origami Scaffold , 2012, Science.

[172]  P. Jung,et al.  A critical reevaluation of the stationary axonal cytoskeleton hypothesis , 2013, Cytoskeleton.

[173]  A. Matus,et al.  Light and electron microscopic studies of the distribution of microtubule‐associated protein 2 in rat brain: A difference between dendritic and axonal cytoskeletons , 1984, The Journal of comparative neurology.

[174]  E. Salmon,et al.  Dynamic instability of individual microtubules analyzed by video light microscopy: rate constants and transition frequencies , 1988, The Journal of cell biology.

[175]  R. Simmons,et al.  Models of motor-assisted transport of intracellular particles. , 2001, Biophysical journal.

[176]  Christoph F. Schmidt,et al.  Direct observation of kinesin stepping by optical trapping interferometry , 1993, Nature.

[177]  J. Davies,et al.  Molecular Biology of the Cell , 1983, Bristol Medico-Chirurgical Journal.

[178]  David A. Smith,et al.  Dynamical pair approximation for cellular automata with shuffle update , 2007 .

[179]  P. Baas,et al.  An Essential Role for Katanin in Severing Microtubules in the Neuron , 1999, The Journal of cell biology.

[180]  Gunter M. Schütz,et al.  Shocks and Excitation Dynamics in a Driven Diffusive Two-Channel System , 2002 .

[181]  Simon Tindemans,et al.  Microtubule length distributions in the presence of protein-induced severing. , 2010, Physical review. E, Statistical, nonlinear, and soft matter physics.

[182]  Erwin Frey,et al.  Exclusion processes with internal states. , 2006, Physical review letters.

[183]  G. Borisy,et al.  Life cycle of MTs: persistent growth in the cell interior, asymmetric transition frequencies and effects of the cell boundary. , 2002, Journal of cell science.

[184]  Daniel Safer,et al.  Myosin VI is an actin-based motor that moves backwards , 1999, Nature.

[185]  M. Gardel,et al.  Requirements for contractility in disordered cytoskeletal bundles , 2011, New journal of physics.

[186]  N. Hirokawa,et al.  Cross-linker system between neurofilaments, microtubules and membranous organelles in frog axons revealed by the quick-freeze, deep-etching method , 1982, The Journal of cell biology.

[187]  Debashish Chowdhury,et al.  Traffic of single-headed motor proteins KIF1A: effects of lane changing. , 2007, Physical review. E, Statistical, nonlinear, and soft matter physics.

[188]  K. Kruse,et al.  Length regulation of active biopolymers by molecular motors. , 2012, Physical review letters.

[189]  Ram Dixit,et al.  Differential Regulation of Dynein and Kinesin Motor Proteins by Tau , 2008, Science.

[190]  D. Frenkel,et al.  Running faster together: huge speed up of thermal ratchets due to hydrodynamic coupling. , 2012, Physical review letters.

[191]  Eytan Domany,et al.  An exact solution of a one-dimensional asymmetric exclusion model with open boundaries , 1992 .

[192]  A. Akhmanova,et al.  Kinesins Lead Aging Microtubules to Catastrophe , 2011, Cell.

[193]  William O. Hancock,et al.  Bidirectional cargo transport: moving beyond tug of war , 2014, Nature Reviews Molecular Cell Biology.

[194]  Andreas Zumbusch,et al.  Fast and long term lipid droplet tracking with CARS microscopy , 2011, Journal of biophotonics.

[195]  Rajendrani Mukhopadhyay,et al.  Molecular mechanisms for organizing the neuronal cytoskeleton. , 2004, BioEssays : news and reviews in molecular, cellular and developmental biology.

[196]  P. Bressloff,et al.  Stochastic models of intracellular transport , 2013 .

[197]  Cécile Appert-Rolland,et al.  Frozen shuffle update for a deterministic totally asymmetric simple exclusion process with open boundaries , 2011 .

[198]  D. Taylor,et al.  Probing the structure of cytoplasm , 1986, The Journal of cell biology.

[199]  Eric R. Kandel,et al.  A Neuronal Isoform of CPEB Regulates Local Protein Synthesis and Stabilizes Synapse-Specific Long-Term Facilitation in Aplysia , 2003, Cell.

[200]  Yixian Zheng,et al.  Nucleation of microtubule assembly by a γ-tubulin-containing ring complex , 1995, Nature.

[201]  Stefan Grosskinsky,et al.  Dynamics of non-Markovian exclusion processes , 2014, 1408.2139.

[202]  Alexander Jesacher,et al.  Characterisation of the dynamic behaviour of lipid droplets in the early mouse embryo using adaptive harmonic generation microscopy , 2010, BMC Cell Biology.

[203]  M. Black,et al.  Individual microtubules in the axon consist of domains that differ in both composition and stability , 1990, The Journal of cell biology.

[204]  A. Czirók,et al.  Collective Motion , 1999, physics/9902023.

[205]  E. Mandelkow,et al.  On the rigidity of the cytoskeleton: are MAPs crosslinkers or spacers of microtubules? , 2000, Cellular and molecular biology.

[206]  M. Sheetz Microtubule motor complexes moving membranous organelles. , 1996, Cell structure and function.

[207]  D. Kim,et al.  Two-way traffic flow: Exactly solvable model of traffic jam , 1997, cond-mat/9708006.

[208]  Steven P. Gross,et al.  Molecular Motors: Strategies to Get Along , 2004, Current Biology.

[209]  Debashish Chowdhury,et al.  Intracellular transport by single-headed kinesin KIF1A: effects of single-motor mechanochemistry and steric interactions. , 2006, Physical review. E, Statistical, nonlinear, and soft matter physics.

[210]  Ivan V. Gregoretti,et al.  Analysis of a mesoscopic stochastic model of microtubule dynamic instability. , 2006, Physical review. E, Statistical, nonlinear, and soft matter physics.

[211]  Julien Cividini,et al.  Diagonal patterns and chevron effect in intersecting traffic flows , 2013 .

[212]  L. Qiang,et al.  Neuronal microtubules: when the MAP is the roadblock. , 2005, Trends in cell biology.

[213]  A. Caspi,et al.  Diffusion and directed motion in cellular transport. , 2002, Physical review. E, Statistical, nonlinear, and soft matter physics.

[214]  C. Hoogenraad,et al.  Microtubule minus-end stabilization by polymerization-driven CAMSAP deposition. , 2014, Developmental cell.

[215]  Reinhard Lipowsky,et al.  Walks of molecular motors in two and three dimensions , 2002, cond-mat/0203230.

[216]  Bier,et al.  Fluctuation driven ratchets: Molecular motors. , 1994, Physical review letters.

[217]  S. Humbert,et al.  Huntingtin phosphorylation acts as a molecular switch for anterograde/retrograde transport in neurons , 2008, The EMBO journal.

[218]  L. Goldstein,et al.  Stable Kinesin and Dynein Assemblies Drive the Axonal Transport of Mammalian Prion Protein Vesicles , 2011, Cell.

[219]  Arjen van Ooyen,et al.  Compartment volume influences microtubule dynamic instability: a model study. , 2006, Biophysical journal.

[220]  M. R. Evans,et al.  Phase diagrams of two-lane driven diffusive systems , 2011, 1103.4677.

[221]  M. Welte,et al.  Bidirectional Transport along Microtubules , 2004, Current Biology.

[222]  R. Lipowsky,et al.  Traffic of Molecular Motors Through Tube-Like Compartments , 2003, cond-mat/0304681.

[223]  A. Schadschneider,et al.  Statistical physics of vehicular traffic and some related systems , 2000, cond-mat/0007053.

[224]  E. Masliah,et al.  Axonopathy and Transport Deficits Early in the Pathogenesis of Alzheimer's Disease , 2005, Science.

[225]  A. Kolomeisky,et al.  Parallel coupling of symmetric and asymmetric exclusion processes , 2008, 0807.0803.

[226]  Deepika Vuppalanchi,et al.  Regulation of mRNA transport and translation in axons. , 2009, Results and problems in cell differentiation.

[227]  P. Baas Microtubule transport in the axon. , 2002, International review of cytology.

[228]  P. Greulich Stochastic modeling of active biological transport in inhomogeneous environments , 2009 .

[229]  L. Enquist,et al.  Herpesvirus Interactions with the Host Cytoskeleton , 2008, Journal of Virology.

[230]  R. Granek,et al.  Microtubules, motor proteins, and anomalous mean squared displacements , 2002 .

[231]  Paul R Selvin,et al.  Single-molecule fluorescence and in vivo optical traps: how multiple dyneins and kinesins interact. , 2014, Chemical reviews.

[232]  R. Mallik,et al.  Reconstitution of microtubule-dependent organelle transport. , 2014, Methods in enzymology.

[233]  Erwin Frey,et al.  Microtubule length regulation by molecular motors. , 2012, Physical review letters.

[234]  A. Frankfurter,et al.  The distribution of tau in the mammalian central nervous system , 1985, The Journal of cell biology.

[235]  Steven M Block,et al.  Kinesin motor mechanics: binding, stepping, tracking, gating, and limping. , 2007, Biophysical journal.

[236]  T. Mitchison,et al.  Microtubule polymerization dynamics. , 1997, Annual review of cell and developmental biology.

[237]  S. Leibler,et al.  Porters versus rowers: a unified stochastic model of motor proteins , 1993, The Journal of cell biology.

[238]  M. Poo,et al.  Diffusional transport of macromolecules in developing nerve processes , 1992, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[239]  M. Kirschner,et al.  Dynamic instability of microtubule growth , 1984, Nature.

[240]  Timothy J. Mitchison,et al.  Kin I Kinesins Are Microtubule-Destabilizing Enzymes , 1999, Cell.

[241]  Holy,et al.  Stochastic dynamics of microtubules: A model for caps and catastrophes. , 1994, Physical review letters.

[242]  Andreas Zumbusch,et al.  Coherent anti-Stokes Raman scattering microscopy , 1999 .

[243]  S. Deacon,et al.  Motor-cargo interactions: the key to transport specificity. , 2002, Trends in cell biology.

[244]  K. Schütze,et al.  Force generation of organelle transport measured in vivo by an infrared laser trap , 1990, Nature.

[245]  M. Sheetz,et al.  Single cytoplasmic dynein molecule movements: characterization and comparison with kinesin. , 1995, Biophysical journal.

[246]  I. Neri,et al.  Motor protein traffic regulation by supply–demand balance of resources , 2014, Physical biology.

[247]  Carsten Janke,et al.  Post-translational regulation of the microtubule cytoskeleton: mechanisms and functions , 2011, Nature Reviews Molecular Cell Biology.

[248]  Macroscopic car condensation in a parking garage. , 2002, Physical review. E, Statistical, nonlinear, and soft matter physics.

[249]  J. Delattre,et al.  Neurological complications of radiotherapy and chemotherapy , 1998, Journal of Neurology.

[250]  P. Baas,et al.  The plus ends of stable microtubules are the exclusive nucleating structures for microtubules in the axon , 1992, The Journal of cell biology.

[251]  K. Mallick,et al.  Shocks in the asymmetry exclusion model with an impurity , 1996 .

[252]  L. Santen,et al.  Boundary-induced orientation of dynamic filament networks and vesicle agglomerations. , 2011, Physical review. E, Statistical, nonlinear, and soft matter physics.

[253]  M. R. Evans Exact steady states of disordered hopping particle models with parallel and ordered sequential dynamics , 1997 .

[254]  M. R. Evans,et al.  Bose-Einstein condensation in disordered exclusion models and relation to traffic flow , 1996 .

[255]  Fernando Falo,et al.  The influence of direct motor–motor interaction in models for cargo transport by a single team of motors , 2010, Physical biology.

[256]  B. Alberts,et al.  Microtubule nucleation by γ-tubulin-containing rings in the centrosome , 1995, Nature.

[257]  Tobias A. Knoch,et al.  Dynamic behavior of GFP–CLIP-170 reveals fast protein turnover on microtubule plus ends , 2008, The Journal of cell biology.

[258]  M. Evans,et al.  Shock formation in an exclusion process with creation and annihilation. , 2003, Physical review. E, Statistical, nonlinear, and soft matter physics.

[259]  C. Hoogenraad,et al.  Axon and dendritic trafficking , 2014, Current Opinion in Neurobiology.

[260]  Carsten Janke,et al.  Tubulin post-translational modifications: encoding functions on the neuronal microtubule cytoskeleton , 2010, Trends in Neurosciences.

[261]  M. Spira,et al.  Hallmark cellular pathology of Alzheimer’s disease induced by mutant human tau expression in cultured Aplysia neurons , 2010, Acta Neuropathologica.

[262]  Niels Galjart,et al.  Visualization of Microtubule Growth in Cultured Neurons via the Use of EB3-GFP (End-Binding Protein 3-Green Fluorescent Protein) , 2003, The Journal of Neuroscience.

[263]  M. Schuster,et al.  Kinesin-3 and dynein cooperate in long-range retrograde endosome motility along a nonuniform microtubule array , 2011, Molecular biology of the cell.

[264]  Liedewij Laan,et al.  End-on microtubule-dynein interactions and pulling-based positioning of microtubule organizing centers , 2012, Cell cycle.

[265]  James B. Martin,et al.  Stationary distributions of multi-type totally asymmetric exclusion processes , 2005, math/0501291.

[266]  K. Mallick,et al.  Recursive structures in the multispecies TASEP , 2011, 1104.3752.

[267]  Y. Li,et al.  Microtubule assembly and turnover in growing axons , 1996, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[268]  L. G. Tilstra,et al.  Synchronous asymmetric exclusion processes , 1998 .

[269]  E. Mandelkow,et al.  Dynamics and cooperativity of microtubule decoration by the motor protein kinesin. , 2001, Journal of molecular biology.

[270]  Reinhard Lipowsky,et al.  Transport of Beads by Several Kinesin Motors , 2007, Biophysical journal.

[271]  K. Mallick,et al.  Generalized matrix Ansatz in the multispecies exclusion process—the partially asymmetric case , 2012, 1201.0388.

[272]  Ivan V. Gregoretti,et al.  Insights into cytoskeletal behavior from computational modeling of dynamic microtubules in a cell-like environment , 2006, Journal of Cell Science.

[273]  E. Mandelkow,et al.  MARK/PAR1 kinase is a regulator of microtubule-dependent transport in axons , 2004, The Journal of cell biology.

[274]  V. S. Poghosyan,et al.  The totally asymmetric exclusion process on a ring: Exact relaxation dynamics and associated model of clustering transition , 2006 .

[275]  Melanie J. I. Müller,et al.  Molecular motor traffic in a half-open tube , 2005, Journal of physics. Condensed matter : an Institute of Physics journal.

[276]  Ronald D Vale,et al.  The Molecular Motor Toolbox for Intracellular Transport , 2003, Cell.

[277]  G. Banker,et al.  Polarity orientation of microtubules in hippocampal neurons: uniformity in the axon and nonuniformity in the dendrite. , 1988, Proceedings of the National Academy of Sciences of the United States of America.

[278]  D. Odde,et al.  Dynein Tethers and Stabilizes Dynamic Microtubule Plus Ends , 2012, Current Biology.

[279]  Franck Perez,et al.  Detection of GTP-Tubulin Conformation in Vivo Reveals a Role for GTP Remnants in Microtubule Rescues , 2008, Science.

[280]  L Santen,et al.  Boundary induced phase transitions in driven lattice gases with metastable states. , 2001, Physical review letters.

[281]  Samara L. Reck-Peterson,et al.  Dynein achieves processive motion using both stochastic and coordinated stepping , 2011, Nature Structural &Molecular Biology.

[282]  M. Romano,et al.  Transport on a lattice with dynamical defects. , 2012, Physical review. E, Statistical, nonlinear, and soft matter physics.

[283]  Hubert Klüpfel,et al.  The Simulation of Crowds at Very Large Events , 2007 .

[284]  A. Bolognesi,et al.  Docetaxel neuropathy: a distal axonopathy , 1999, Acta Neuropathologica.

[285]  R. Lipowsky,et al.  Transient binding of dynein controls bidirectional long-range motility of early endosomes , 2011, Proceedings of the National Academy of Sciences.

[286]  C. Brangwynne,et al.  Nonequilibrium microtubule fluctuations in a model cytoskeleton. , 2007, Physical review letters.

[287]  Jari Saramäki,et al.  Temporal Networks , 2011, Encyclopedia of Social Network Analysis and Mining.

[288]  R. Juhasz Weakly coupled, antiparallel, totally asymmetric simple exclusion processes. , 2007, Physical review. E, Statistical, nonlinear, and soft matter physics.

[289]  H. Erickson,et al.  Guanosinetriphosphatase activity of tubulin associated with microtubule assembly. , 1977, Proceedings of the National Academy of Sciences of the United States of America.

[290]  Ambarish Kunwar,et al.  Teamwork in microtubule motors. , 2013, Trends in cell biology.

[291]  Prost,et al.  Asymmetric pumping of particles. , 1994, Physical review letters.

[292]  C. Hoogenraad,et al.  Microtubule plus-end-tracking proteins: mechanisms and functions. , 2005, Current opinion in cell biology.

[293]  R. K. P. Zia,et al.  Feedback and fluctuations in a totally asymmetric simple exclusion process with finite resources , 2008, 0811.1543.

[294]  G. Borisy,et al.  Microtubule Treadmilling in Vivo , 1997, Science.

[295]  M. R. Shaebani,et al.  Intelligent Controlling Simulation of Traffic Flow in a Small City Network , 2004, physics/0511141.

[296]  Michael P. Sheetz,et al.  One-dimensional diffusion on microtubules of particles coated with cytoplasmic dynein and immunoglobulins. , 1999, Cell structure and function.

[297]  L. Qiang,et al.  Tau Protects Microtubules in the Axon from Severing by Katanin , 2006, The Journal of Neuroscience.

[298]  E. Dent,et al.  Cytoskeletal Dynamics and Transport in Growth Cone Motility and Axon Guidance , 2003, Neuron.

[299]  Michael Schreckenberg,et al.  Garden of Eden states in traffic models , 1998 .

[300]  R. Lasek,et al.  Axonal transport of cytoskeletal proteins in oculomotor axons and their residence times in the axon terminals , 1987, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[301]  N. Galjart,et al.  Cytoplasmic linker proteins promote microtubule rescue in vivo , 2002, The Journal of cell biology.

[302]  K. Mallick,et al.  Nonequilibrium fluctuations and mechanochemical couplings of a molecular motor. , 2007, Physical review letters.

[303]  E. R. Speer,et al.  Exact Solution of a Cellular Automaton for Traffic , 1998, cond-mat/9810306.

[304]  B. Derrida,et al.  Exact solution of a 1d asymmetric exclusion model using a matrix formulation , 1993 .

[305]  Vladimir Gelfand,et al.  Regulation of molecular motor proteins. , 2001, International review of cytology.

[306]  Kazuo Sutoh,et al.  Three-dimensional structure of cytoplasmic dynein bound to microtubules , 2007, Proceedings of the National Academy of Sciences.

[307]  Prost,et al.  Cooperative molecular motors. , 1995, Physical review letters.

[308]  Mark E. Schneider,et al.  An actin molecular treadmill and myosins maintain stereocilia functional architecture and self-renewal , 2004, The Journal of cell biology.

[309]  N. Gov Physical model for the width distribution of axons , 2009, The European physical journal. E, Soft matter.

[310]  A. Pipkin,et al.  Kinetics of biopolymerization on nucleic acid templates , 1968, Biopolymers.

[311]  Frank Jülicher,et al.  Active behavior of the Cytoskeleton , 2007 .

[312]  G. Schütz,et al.  Shocks in the asymmetric simple exclusion process in a discrete-time update , 2000 .

[313]  S. Bouzat,et al.  Transport Properties of Melanosomes along Microtubules Interpreted by a Tug-of-War Model with Loose Mechanical Coupling , 2012, PloS one.

[314]  Reinhard Lipowsky,et al.  'Life is motion': multiscale motility of molecular motors , 2005 .

[315]  E. Mandelkow,et al.  Tau regulates the attachment/detachment but not the speed of motors in microtubule-dependent transport of single vesicles and organelles. , 1999, Journal of cell science.

[316]  S. Kandels-Lewis,et al.  CLIP-170 tracks growing microtubule ends by dynamically recognizing composite EB1/tubulin-binding sites , 2008, The Journal of cell biology.

[317]  R. A. Blythe,et al.  Nonequilibrium steady states of matrix-product form: a solver's guide , 2007, 0706.1678.

[318]  R. Milligan,et al.  A mechanism for microtubule depolymerization by KinI kinesins. , 2002, Molecular cell.

[319]  A. Borodin,et al.  Fluctuations in the Discrete TASEP with Periodic Initial Configurations and the Airy1 Process , 2006, math-ph/0611071.

[320]  Cécile Appert-Rolland,et al.  Bidirectional Traffic on Microtubules , 2010, ACRI.

[321]  Aidong Yuan,et al.  Axonal Transport Rates In Vivo Are Unaffected by Tau Deletion or Overexpression in Mice , 2008, The Journal of Neuroscience.

[322]  Ambarish Kunwar,et al.  Robust transport by multiple motors with nonlinear force–velocity relations and stochastic load sharing , 2010, Physical biology.

[323]  Steven M. Block,et al.  Force and velocity measured for single kinesin molecules , 1994, Cell.

[324]  I. Ivanov,et al.  Organization of microtubules in dendrites and axons is determined by a short hydrophobic zipper in microtubule-associated proteins MAP2 and tau , 1989, Nature.

[325]  A. Schadschneider,et al.  Intracellular transport of single-headed molecular motors KIF1A. , 2005, Physical review letters.

[326]  I. Aranson,et al.  Statistics of active transport in Xenopus melanophores cells. , 2010, Biophysical journal.

[327]  J. Joanny,et al.  Generic theory of active polar gels: a paradigm for cytoskeletal dynamics , 2004, The European physical journal. E, Soft matter.

[328]  Melanie J. I. Müller,et al.  Tug-of-war as a cooperative mechanism for bidirectional cargo transport by molecular motors , 2008, Proceedings of the National Academy of Sciences.

[329]  R. Vale,et al.  The way things move: looking under the hood of molecular motor proteins. , 2000, Science.

[330]  F. Jülicher,et al.  Modeling molecular motors , 1997 .

[331]  S A Kuznetsov,et al.  Transport of ER vesicles on actin filaments in neurons by myosin V. , 1998, Journal of cell science.

[332]  T. Reichenbach,et al.  Traffic jams induced by rare switching events in two-lane transport , 2007, cond-mat/0702022.

[333]  David R Nelson,et al.  Dynamics of molecular motors and polymer translocation with sequence heterogeneity. , 2003, Biophysical journal.

[334]  Bottleneck-induced transitions in a minimal model for intracellular transport. , 2006, Physical review. E, Statistical, nonlinear, and soft matter physics.

[335]  Katsuhiro Nishinari,et al.  Physics of Transport and Traffic Phenomena in Biology: from molecular motors and cells to organisms , 2005 .

[336]  I. Pagonabarraga,et al.  Lattice-gas model for active vesicle transport by molecular motors with opposite polarities. , 2010, Physical review. E, Statistical, nonlinear, and soft matter physics.

[337]  Jaume Casademunt,et al.  Coordination of Kinesin motors pulling on fluid membranes. , 2008, Biophysical journal.

[338]  J. J. Ward,et al.  A theory of microtubule catastrophes and their regulation , 2009, Proceedings of the National Academy of Sciences.

[339]  T. Nieuwenhuizen,et al.  UvA-DARE ( Digital Academic Repository ) Random walks of cytoskeletal motors in open and closed compartments , 2001 .

[340]  L S Goldstein,et al.  Kinesin molecular motors: Transport pathways, receptors, and human disease , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[341]  M. Welte Fat on the move: intracellular motion of lipid droplets. , 2009, Biochemical Society transactions.

[342]  C. Hoogenraad,et al.  Myosin-V Opposes Microtubule-Based Cargo Transport and Drives Directional Motility on Cortical Actin , 2013, Current Biology.

[343]  Liedewij Laan,et al.  Reconstitution of a microtubule plus-end tracking system in vitro , 2007, Nature.

[344]  M. Kirschner Microtubule assembly and nucleation. , 1978, International review of cytology.

[345]  T. Chou,et al.  Non-equilibrium statistical mechanics: from a paradigmatic model to biological transport , 2011, 1110.1783.

[346]  P. Bassereau,et al.  A minimal system allowing tubulation with molecular motors pulling on giant liposomes , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[347]  Samara L. Reck-Peterson,et al.  Force-Induced Bidirectional Stepping of Cytoplasmic Dynein , 2007, Cell.

[348]  S. Popov,et al.  Quantitative Analysis of Microtubule Transport in Growing Nerve Processes , 2004, Current Biology.

[349]  M. Spira,et al.  Tau‐Induced Traffic Jams Reflect Organelles Accumulation at Points of Microtubule Polar Mismatching , 2008, Traffic.

[350]  A. Aszódi,et al.  MAP2: a sensitive cross‐linker and adjustable spacer in dendritic architecture , 1991, FEBS letters.

[351]  P. Tittmann,et al.  Surface-decoration of microtubules by human tau. , 2004, Journal of molecular biology.

[352]  Anna Akhmanova,et al.  Tracking the ends: a dynamic protein network controls the fate of microtubule tips , 2008, Nature Reviews Molecular Cell Biology.

[353]  S. Gross,et al.  Tuning Microtubule‐Based Transport Through Filamentous MAPs: The Problem of Dynein , 2008, Traffic.

[354]  K. Czaplinski,et al.  mRNA trafficking and local translation: the Yin and Yang of regulating mRNA localization in neurons. , 2011, Acta biochimica et biophysica Sinica.

[355]  Ronald D. Vale,et al.  Regulators of the cytoplasmic dynein motor , 2009, Nature Reviews Molecular Cell Biology.

[356]  Andreas Schadschneider,et al.  Traffic flow: a statistical physics point of view , 2002 .

[357]  David Pellman,et al.  Microtubule “Plus-End-Tracking Proteins” The End Is Just the Beginning , 2001, Cell.

[358]  Mark J. Schnitzer,et al.  Single kinesin molecules studied with a molecular force clamp , 1999, Nature.

[359]  C. Holt,et al.  RNA translation in axons. , 2004, Annual review of cell and developmental biology.

[360]  L. Santen,et al.  Relaxation Times in the ASEP Model Using a DMRG Method , 2002, cond-mat/0204081.

[361]  S. Humbert,et al.  Huntington’s disease: from huntingtin function and dysfunction to therapeutic strategies , 2006, Cellular and Molecular Life Sciences CMLS.

[362]  K. Luby-Phelps,et al.  Cytoarchitecture and physical properties of cytoplasm: volume, viscosity, diffusion, intracellular surface area. , 2000, International review of cytology.

[363]  M. Rief,et al.  Torque generation of kinesin motors is governed by the stability of the neck domain. , 2012, Molecular cell.

[364]  Lebowitz,et al.  Finite-size effects and shock fluctuations in the asymmetric simple-exclusion process. , 1992, Physical review. A, Atomic, molecular, and optical physics.

[365]  F. MacKintosh,et al.  Driven diffusive systems with mutually interactive Langmuir kinetics. , 2015, Physical review. E, Statistical, nonlinear, and soft matter physics.

[366]  M. Lenz Geometrical Origins of Contractility in Disordered Actomyosin Networks , 2014, 1407.6693.

[367]  Cecile Monthus,et al.  Strong disorder RG approach of random systems , 2005, cond-mat/0502448.

[368]  J. Israelachvili,et al.  Complementary dimerization of microtubule-associated tau protein: Implications for microtubule bundling and tau-mediated pathogenesis , 2008, Proceedings of the National Academy of Sciences.

[369]  Clare C. Yu,et al.  Mechanical stochastic tug-of-war models cannot explain bidirectional lipid-droplet transport , 2011, Proceedings of the National Academy of Sciences.

[370]  B. Oakley,et al.  Identification of γ-tubulin, a new member of the tubulin superfamily encoded by mipA gene of Aspergillus nidulans , 1989, Nature.

[371]  R. Cross,et al.  Mechanics of the kinesin step , 2005, Nature.

[372]  Paul R. Selvin,et al.  Myosin V Walks Hand-Over-Hand: Single Fluorophore Imaging with 1.5-nm Localization , 2003, Science.

[373]  R. A. Blythe,et al.  Exact solution of a partially asymmetric exclusion model using a deformed oscillator algebra , 2000 .

[374]  M. Shelanski,et al.  tau Regulation of microtubule-microtubule spacing and bundling. , 1994, Journal of Neurochemistry.

[375]  D. Gillespie Exact Stochastic Simulation of Coupled Chemical Reactions , 1977 .

[376]  Arne Seitz,et al.  Processive movement of single kinesins on crowded microtubules visualized using quantum dots , 2006, The EMBO journal.

[377]  G. Schütz,et al.  Relaxation spectrum of the asymmetric exclusion process with open boundaries , 2000 .

[378]  T. Reichenbach,et al.  Domain wall delocalization, dynamics and fluctuations in an exclusion process with two internal states , 2008, The European physical journal. E, Soft matter.

[379]  B. C. Carter,et al.  Cytoplasmic dynein functions as a gear in response to load , 2004, Nature.

[380]  J. Howard,et al.  Kinesin Takes One 8-nm Step for Each ATP That It Hydrolyzes* , 1999, The Journal of Biological Chemistry.

[381]  H. Rieger,et al.  Anomalous diffusion of self-propelled particles in directed random environments. , 2014, Physical review. E, Statistical, nonlinear, and soft matter physics.

[382]  Robin Stinchcombe,et al.  Ideal and disordered two-lane traffic models , 2005 .

[383]  P. Baas,et al.  Changes in microtubule number and length during axon differentiation , 1994, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[384]  L. Santen,et al.  Fluctuation effects in bidirectional cargo transport , 2014, 1409.7792.

[385]  R. Vale,et al.  Kinesin Walks Hand-Over-Hand , 2004, Science.

[386]  Hideo Higuchi,et al.  Overlapping hand-over-hand mechanism of single molecular motility of cytoplasmic dynein. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

[387]  B. Alberts,et al.  Microtubule nucleation by gamma-tubulin-containing rings in the centrosome. , 1995, Nature.

[388]  R J Fletterick,et al.  The design plan of kinesin motors. , 1997, Annual review of cell and developmental biology.

[389]  Michael Schreckenberg,et al.  Exact matrix-product states for parallel dynamics: open boundaries and excess mass on the ring , 2009, 0903.5447.

[390]  C Kaether,et al.  Microtubule-dependent transport of secretory vesicles visualized in real time with a GFP-tagged secretory protein. , 1997, Journal of cell science.

[391]  Daniel T Gillespie,et al.  Stochastic simulation of chemical kinetics. , 2007, Annual review of physical chemistry.

[392]  J. Prost,et al.  Spontaneous Oscillations of Collective Molecular Motors , 1996, cond-mat/9611204.

[393]  Paul R. Selvin,et al.  Kinesin and Dynein Move a Peroxisome in Vivo: A Tug-of-War or Coordinated Movement? , 2005, Science.

[394]  Ludger Santen,et al.  The Asymmetric Exclusion Process Revisited: Fluctuations and Dynamics in the Domain Wall Picture , 2001 .